JP3730438B2 - Data processing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data processing apparatus, and more particularly to a data processing apparatus capable of adding a communication function via the telephone line by mounting a communication unit connected to the telephone line on the apparatus main body.
[0002]
[Prior art]
In order to realize the function of the facsimile apparatus, a communication function for transmitting / receiving image data, a scanner function for reading image data to obtain image data, and a plotter function for recording image data on recording paper are required.
[0003]
On the other hand, a digital copying machine already has a scanner function and a plotter function, and can operate as a facsimile machine if a communication function is added. Further, since the scanner device already has a scanner function, if a communication function is added, a facsimile transmission function can be realized. In addition, since the printer device already has a plotter function, a facsimile reception function can be realized by adding a communication function.
[0004]
Therefore, a communication unit for realizing a communication function via a telephone line is prepared as an option in a digital copier, etc., and when the communication function is required by the user, it is necessary to attach the communication unit to the main body of the device. In recent years, devices that allow communication functions to be added in response to demand have also appeared.
[0005]
However, in order to add a communication function to a data processing apparatus, not limited to a digital copying machine, etc., the control procedure relating to communication via a telephone line is effective only on the apparatus body side when the communication unit is installed. Therefore, it is necessary for the apparatus main body to correctly recognize whether or not the communication unit is connected.
[0006]
As a recognition method, a hardware switch such as a DIP switch is manually set to ON / OFF depending on whether or not the communication unit is connected, and the device recognizes the setting state of the hardware switch at the time of startup. Recognize the connection state of the communication unit, set the connection state of the communication unit by setting input from the operation unit, and store the setting in a rewritable non-volatile memory such as a flash ROM. The connection status of the communication unit was set by reading the settings.
[0007]
[Problems to be solved by the invention]
However, such a manual setting of the connection state of the communication unit is likely to cause a setting error. In fact, it is set that the communication unit is connected even though it is not installed in the correct state that can be used from the main body of the apparatus. As a result, there is a problem that the operation of the apparatus is hindered.
[0008]
The present invention has been made in view of such circumstances, and it is an object of the present invention to provide a data processing apparatus capable of automatically detecting whether or not a communication unit is correctly installed in a usable state from the apparatus main body. And
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the data processing device according to claim 1 is capable of adding a communication function via the telephone line by mounting a communication unit connected to the telephone line on the apparatus body. A signal of a DC detection signal input terminal to which a detection signal output from a current detection unit for detecting the presence or absence of a DC loop of the telephone line included in the communication unit is input when the communication unit is attached to an apparatus main body. Depending on the state, during normal operation, the presence or absence of a DC loop of the telephone line is detected, and in the connection state detection mode of the communication unit, whether or not the communication unit is mounted so as to be usable by the apparatus main body. A DC loop / wearing state detecting means for detecting is provided.
[0010]
The data processing apparatus according to claim 2, wherein the communication unit is capable of adding a communication function via the telephone line by attaching a communication unit connected to the telephone line to the apparatus main body. While an external telephone can be connected, when the communication unit is attached to the apparatus main body, it is output from a current detection unit that detects the presence or absence of each of the DC loops of the telephone line included in the communication unit. According to each signal state of the first and second DC detection signal input terminals to which the respective forward / reverse detection signals are input, during normal operation, the presence / absence of either the forward / reverse DC loop of the telephone line is detected, and the communication In the unit connection state detection mode, a DC loop / mounting state for detecting whether or not the communication unit is mounted so as to be usable by the apparatus main body. Characterized by comprising a means out.
[0011]
The data processing device according to claim 3 is the data processing device according to claim 1 or 2, wherein a confirmation message about the detection result of the connection state of the communication unit by the DC loop / mounting state detection means is received. It further comprises message display means for displaying.
[0012]
The data processing device according to claim 4 is the data processing device according to any one of claims 1, 2, or 3, wherein the communication unit is detected as unconnected by the DC loop / mounting state detection means. In this case, the apparatus further includes a communication function stopping unit that prohibits execution of a control procedure related to a communication function using the communication unit.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0014]
First, FIG. 1 shows a block configuration of a data processing apparatus 1 according to an embodiment of the present invention.
[0015]
In FIG. 1, a data processing apparatus 1 includes a system control unit 2, ROM 3, RAM 4, scanner 5, plotter 6, PC interface 7, encoding / decoding unit 8, operation display unit 9, modem 10, detection mode setting unit 11, The system bus 12 is used. The data processing apparatus 1 also includes a connector CN1 for connecting the NCU unit 20 as a communication unit via the harness H.
[0016]
The system control unit 2 controls each unit of the apparatus while using the RAM 4 as a work area according to a control program written in the ROM 3.
[0017]
As described above, the ROM 3 is a read-only memory in which a control program and a data table for the system control unit 2 to control each unit of the apparatus are stored.
[0018]
The RAM 4 is a random access memory used as a work area for the system control unit 2 as described above. Note that the RAM 4 is backed up by a backup circuit (not shown), and the stored contents are retained even when the apparatus power is shut off.
[0019]
The scanner 5 is for obtaining image data by reading a document image that is sub-scanned at a predetermined reading line density such as 3.85 lines / mm, 7.7 lines / mm, and 15.4 lines / mm. . The plotter 6 is for recording and outputting image data on recording paper.
[0020]
The PC interface 7 serves as an interface with a personal computer (PC) 40, and the data processing apparatus 1 exchanges image data with the PC 40 via the PC interface 7.
[0021]
The encoding / decoding unit 8 encodes and compresses image data with a predetermined encoding method such as an MH encoding method, an MR encoding method, and an MMR encoding method, while the encoded image data is encoded with an MH encoding method, The original image data is reproduced by decoding and decompressing with a predetermined decoding method corresponding to the MR encoding method, the MMR encoding method or the like.
[0022]
The operation display unit 9 is provided with a numeric keypad for designating a destination facsimile number, a transmission start key, a one-touch dial key, a function key, and various other keys, and a display such as a liquid crystal display device. It displays the operating state of the device to be notified to the user and various messages.
[0023]
FIG. 2 shows an arrangement configuration example of the operation display unit 9 that is not shown except for the portion directly related to the present embodiment. In the figure, a numeric keypad 9a is used for directly specifying a destination fax number or the like. The [Start] key 9b is used to instruct the start of a facsimile transmission operation, the start of a copy operation, or the like. The [Stop] key 9c is used to instruct forcible stop of various operations. [Yes] key 9d and [No] key 9e are keys for allowing the user to make various selections of decision or cancellation.
[0024]
[Function] key 9f is a time designation transmission, department code designation transmission, etc. other than the one-touch dial registration function, speed dial registration function, user parameter setting function, and function of facsimile apparatus 1 as a standard facsimile apparatus. Each function can be called and executed by pressing the [function] key 9f and inputting a number corresponding to each function using the numeric keypad 9a.
[0025]
The display 9g displays the operation state of the apparatus to be notified to the user and various messages.
[0026]
Returning to FIG. 1, the modem 10 is a G3 facsimile modem, and when the NCU unit 20 is connected to the connector CN1 and the NCU unit 20 is correctly attached to the apparatus main body, the telephone line is connected via the NCU unit 20. While modulating the data to be transmitted to the mobile phone, it demodulates the signal received from the telephone line via the NCU unit 20. The modem 10 also transmits a DTMF signal corresponding to the destination telephone number.
[0027]
Although the details will be described later, the detection mode setting unit 11 uses the output signal from the current detection unit 22 included in the NCU 20 for detecting the DC loop of the telephone line (line DC loop detection mode), and the NCU unit. This is for changing the setting of the detection mode when it is used to detect whether 20 is correctly attached to the apparatus main body (NCU connection state detection mode). The system bus 12 is a signal line for the above units to exchange data. The connector CN1 is for electrically connecting the NCU unit 20 to the data processing apparatus 1 main body via the harness H as necessary.
[0028]
With the above configuration, the system control unit 2 of the data processing apparatus 1 compresses and encodes the image data obtained by reading the document with the scanner 5 with the encoding / decoding unit 8 as necessary, via the PC interface 7. A scanner function for transferring the image data to the PC 40, a plotter function for decoding and decompressing the image data transferred from the PC 40 via the PC interface 7 by the encoding / decoding unit 8 and recording it on the recording paper by the plotter 6, and a scanner. The image data obtained by reading the document in 5 is controlled by the plotter 6 for various data processing such as a copy function for recording on the recording paper.
[0029]
If the NCU unit 20 is connected to the connector CN1 and can be used, the image data obtained by reading the document with the scanner 5 is compressed and encoded by the encoding / decoding unit 8 and modulated by the modem 10. A facsimile transmission function for transmitting to a transmission destination device on the telephone line via the NCU unit 20 and a signal received from the transmission source device on the telephone line via the NCU unit 20 are demodulated by the modem 10 and encoded and decoded. Control for the facsimile reception function of decoding and expanding by the unit 8 and recording the obtained image data on the recording paper by the plotter 6 is also performed.
[0030]
In order for the system control unit 2 of the data processing apparatus 1 to perform control for the facsimile function, the NCU unit 20 is correctly connected to be usable from the apparatus main body, that is, the NCU unit 20 is connected via the harness H. It is necessary to be securely connected to the connector CN1, and it is necessary to correctly detect whether the NCU unit 20 is connected to the apparatus main body.
[0031]
For this reason, in the present embodiment, the state of the detection signal from the current detection unit 22 that the NCU unit 20 originally has for detecting the presence or absence of the DC loop of the telephone line is configured via the detection mode setting unit 11 by the configuration shown in FIG. The connection state of the NCU unit 20 is automatically detected.
[0032]
In FIG. 3, a telephone line is connected to the NCU unit 20 via a connector CN2 such as a modular jack, and an external telephone 30 is connected. While the facsimile communication is not performed, the relay RY in the NCU unit 20 is switched to the contact a side, the telephone line is connected to the external telephone 30, and the telephone line is connected to the external telephone 30 as necessary. Used.
[0033]
When the data processing apparatus 1 performs the facsimile function, it is necessary to switch the relay RY to the setting b side and connect the telephone line to the modem 10 via the line transformer LT. However, when the telephone line is in use by the external telephone 30, that is, when the DC loop of the telephone line is formed, the facsimile function cannot be executed, so the presence or absence of the DC loop of the telephone line is detected. Current detector 22 is provided to detect the presence or absence of a DC loop. The detection signals (D1, D2) are input to the system control unit 2 via the system bus 12 as detection result signals Out1 and Out2 via the detection mode setting unit 11, respectively.
[0034]
The NCU unit 20 is also provided with a call signal detection unit 21 for detecting a call signal coming from the telephone line and knowing the incoming call. The call signal detection signal output from the call signal detection unit 21 is a system bus. 12 is input to the system control unit 2.
[0035]
Wiring for electrically connecting the line transformer LT of the NCU unit 20 and the modem 10, wiring for electrically connecting the detection signals D 1 and D 2 output from the current detection unit 22 to the detection mode setting unit 11, The wiring for electrically connecting the call signal detection signal output from the call signal detection unit 21 to the system bus 12 connects the harness H extending from the NCU unit 20 to the connector CN1 on the data processing apparatus 1 main body side. Is made by Therefore, the DC detection signal input terminal for the data processing apparatus 1 main body is a connection point for the detection signals D1 and D2 of the connector CN1.
[0036]
The NCU unit 20 is installed in the physical space prepared for the mounting of the NCU unit 20 on the main body side of the data processing device 1 so that the NCU unit 20 is mounted on the data processing device 1 main body. If H is connected to the connector CN1 and the NCU unit 20 is not electrically connected to the data processing apparatus 1, it cannot be said that the NCU unit 20 is mounted in a state where the data processing apparatus 1 can be used.
[0037]
FIG. 4 shows specific configurations of the current detection unit 22 on the NCU unit 20 side and the detection mode setting unit 11 on the data processing apparatus 1 main body side.
[0038]
In the figure, a magnetic field is generated in the coil L interposed between points A and B of the telephone line loop by the current if a DC loop is formed in the telephone line. Note that the direction of the current in the DC loop is not constant because it is forward or reverse depending on the subscriber exchange on the telephone line side.
[0039]
The magnetic field in either the forward or reverse direction generated by the coil L is detected by the magnetic sensor 22a, converted into an electric signal corresponding to the direction of the magnetic field, amplified by the amplifier 22b, and input to the comparators 22c and 22d.
[0040]
The comparator 22c compares the output voltage from the amplifier 22b with a reference voltage (not shown), and outputs an H level as the detection signal D1 when there is no line DC loop or when there is a line DC loop (reverse direction). When the line DC loop is present (in the positive direction), the L level is output as the detection signal D1.
[0041]
On the other hand, the comparator 22d compares the output voltage from the amplifier 22b with a reference voltage (not shown), and when the line DC loop is not present or the line DC loop is present (positive direction), the detection signal D2 is at the H level. When the line DC loop is present (reverse direction), the L level is output as the detection signal D2.
[0042]
As described above, in the conventional case, the forward and reverse DC loops can be detected by the detection signals D1 and D2 from the current detection unit 22, but in the present embodiment, the detection signals D1 and D2 are sent to the apparatus body of the NCU unit 20. The detection mode setting unit 11 is provided so that it can also be used to detect the connection state of.
[0043]
In the detection mode setting unit 11, the resistors R1 and R2 whose one ends are connected to the power supply voltage V, and the resistors R1 and R2 connected in series with the collector terminal of the transistor Tr1 whose emitter terminal is connected to the reference potential are connected. The detection signal D1 from the current detection unit 22 is connected to the point, and the detection result signal Out1 is extracted from the connection point. When the NCU unit 20 is not connected to the connector CN1 via the harness H, the detection signal D1 is naturally not connected to the connection point between the resistors R1 and R2.
[0044]
In the detection mode setting unit 11, resistors R3 and R4 connected in series with a resistor R3, a resistor R4, one end of which is connected to the power supply voltage V, and a collector terminal of the transistor Tr2, whose emitter terminal is connected to a reference potential. Is connected to the detection signal D2 from the current detector 22, and the detection result signal Out2 is extracted from the connection point. When the NCU unit 20 is not connected to the connector CN1 via the harness H, the detection signal D2 is naturally not connected to the connection point between the resistors R3 and R4.
[0045]
The mode setting signal Sm from the system control unit 2 is input to the base terminals of the transistors Tr1 and Tr2 via the system bus 12, and the transistors Tr1 and Tr2 are turned on or off by the control from the system control unit 2. The
[0046]
When the transistors Tr1 and Tr2 are ON, the resistors R2 and R4 are grounded to the reference potential, respectively. If the detection signals D1 and D2 are not connected because the NCU unit 20 is not connected, the resistor R1 And the detection result signal Out1 is a voltage obtained by dividing the power supply voltage V by the resistors R1 and R2, and the voltage at the connection point between the resistors R3 and R4, that is, the detection result signal Out1. The result signal Out2 is a voltage obtained by dividing the power supply voltage V by the resistor R3 and the resistor R4.
[0047]
In the present embodiment, when the transistors Tr1 and Tr2 are ON and the NCU unit 20 is not connected, the voltage dividing ratio between the resistor R1 and the resistor R2 so that both the detection result signals Out1 and Out2 are at L level, and A voltage division ratio between the resistor R3 and the resistor R4 is set.
[0048]
If the detection signals D1 and D2 are connected because the NCU unit 20 is connected while the transistors Tr1 and Tr2 are ON, the voltage at the connection point between the resistors R1 and R2, that is, the detection result The signal Out1 is a voltage obtained by dividing the power supply voltage V by the resistor R1 and the resistor R2. If the detection signal D1 is at the H level, the signal Out1 is raised to the level of the power supply voltage V by the discharge current from the comparator 22c. When the detection signal D1 is at the L level, the detection signal D1 is pulled down to the reference potential level by the sink current to the comparator 22c, and thus becomes the “L” level. Similarly, if the voltage at the connection point between the resistor R3 and the resistor R4, that is, the detection result signal Out2 is obtained by dividing the power supply voltage V by the resistor R3 and the resistor R4, and the detection signal D2 is H level, Since it is raised to the level of the power supply voltage V by the discharge current from the comparator 22d, it becomes “H” level, and if the detection signal D2 is L level, the reference potential of the reference potential is absorbed by the sink current to the comparator 22d. Since it is lowered to the level, it becomes the “L” level.
[0049]
If the detection signals D1 and D2 are connected because the NCU unit 20 is connected when the transistors Tr1 and Tr2 are OFF, the voltage at the connection point between the resistors R1 and R2, that is, the detection result If the detection signal D1 is at the H level, the signal Out1 is further pulled up to the level of the power supply voltage V by the discharge current from the comparator 22c from the state pulled up to the power supply voltage V by the resistor R1. If the detection signal D1 is at L level, it is lowered to the level of the reference potential by the sink current from the power supply voltage V to the comparator 22c via the resistor R1, so that it becomes “L” level. Similarly, the voltage at the connection point between the resistor R3 and the resistor R4, that is, the detection result signal Out2 is further compared to the comparator 22d from the state where it is pulled up to the power supply voltage V by the resistor R3 if the detection signal D2 is H level. Since it is raised to the level of the power supply voltage V by the discharge current from, it becomes “H” level, and if the detection signal D2 is L level, the sink current from the power supply voltage V to the comparator 22d via the resistor R3 Since it is lowered to the level of the reference potential, it becomes “L” level.
[0050]
The system control unit 2 sets the detection mode to the line DC loop detection mode when the NCU unit 20 is attached to the apparatus main body and the facsimile function is valid during normal operation. That is, the mode setting signal Sm is set to “L” level to turn off the transistors Tr1 and Tr2.
[0051]
FIG. 5 shows correspondences between the detection signals D1 and D2 and the detection result signals Out1 and Out2 with respect to the connection state of the harness H and the presence / absence (forward / reverse) combination of the line DC loop in the line DC loop detection mode. Show.
[0052]
In the figure, since the line DC loop detection mode is based on the premise that the NCU unit 20 is connected to the apparatus main body, the harness connection state is only “connected”. When the line DC loop is “none”, the detection signals D1 and D2 are both at the H level, the detection result signals Out1 and Out2 are also at the same level as the detection signals D1 and D2, and the system control unit 2 is connected to the line DC. It is determined that there is no loop. In the case of the line DC loop “present (positive)”, the detection signals D1 and D2 are L and H levels, respectively, and the detection result signals Out1 and Out2 are also the same as the detection signals D1 and D2 and are L and H levels, respectively. The system control unit 2 determines that there is a line DC loop (positive). In the case of the line DC loop “present (reverse)”, the detection signals D1 and D2 are H and L levels, respectively, and the detection result signals Out1 and Out2 are also the same as the detection signals D1 and D2 and are respectively H and L levels. The system control unit 2 determines that there is a line DC loop (reverse).
[0053]
Thus, during normal operation, the presence / absence of the DC loop of the line can be correctly detected as in the conventional case by the detection signals D1 and D2 from the current detection unit 22 of the NCU unit 20.
[0054]
On the other hand, when the system control unit 2 detects whether or not the NCU unit 20 is attached to the apparatus main body, the system control unit 2 sets the detection mode to the NCU connection state detection mode. That is, the mode setting signal Sm is set to “H” level to turn on the transistors Tr1 and Tr2.
[0055]
FIG. 6 shows the correspondence between the detection signals D1 and D2 and the detection result signals Out1 and Out2 for the connection state of the harness H and the presence / absence (forward / reverse) of the line DC loop in the NCU connection state detection mode. Show.
[0056]
In the figure, in the NCU connection state detection mode, the NCU unit 20 may or may not be connected to the apparatus main body. If it is connected and the line DC loop is “none”, the detection signal D1 , D2 are both at H level, the detection result signals Out1, Out2 are also at the same H level as the detection signals D1, D2, and the system control unit 2 determines that the NCU unit 20 is connected.
[0057]
In the case of connection, when the line DC loop is “present (positive)”, the detection signals D1 and D2 are L and H levels, respectively, and the detection result signals Out1 and Out2 are also the same as the detection signals D1 and D2 and L respectively. The detection result signal Out1 determines that the NCU unit 20 is not connected, and the detection result signal Out2 determines that the NCU unit 20 is connected. However, the detection result signal Out2 has priority. It is determined that the NCU unit 20 is connected.
[0058]
In the case of the connection, when the line DC loop is “present (reverse)”, the detection signals D1 and D2 are H and L levels, respectively, and the detection result signals Out1 and Out2 are also the same as the detection signals D1 and D2, respectively. The detection result signal Out1 determines that the NCU unit 20 is connected, and the detection result signal Out2 determines that the NCU unit 20 is not connected. However, the detection result signal Out1 is given priority. , It is determined that the NCU unit 20 is connected.
[0059]
Thereby, when there is no line DC loop in the NCU connection state detection mode, it can be detected without problem that the NCU unit 20 is connected. Further, even when the external telephone 30 is off-hooked in the NCU connection state detection mode and the line DC loop is present, the presence (line) and (reverse) of the line DC loop are individually detected, and the detection result signal Out1 or If any one of Out2 is at the H level, it is determined that the NCU unit 20 is correctly connected, so that it is not erroneously determined that the NCU unit 20 is correctly connected but not connected.
[0060]
When the NCU unit 20 is not connected to the connector CN1 via the harness H, the detection result signals Out1 and Out2 are set to the L level regardless of the presence or absence of the line DC loop and therefore regardless of the detection signals D1 and D2. Thus, it can be correctly detected that the NCU unit 20 is not connected.
[0061]
Next, a power-on processing procedure in the data processing apparatus 1 will be described with reference to FIG.
[0062]
In the figure, when the apparatus power is turned on and the operation is started, the system control unit 2 performs initialization processing such as clearing of the RAM 4 and initial setting of the operation of each unit of the apparatus (processing 101), and then a mode setting signal Sm. Is turned ON (process 102), the detection mode setting unit 11 is set to the NCU connection state detection mode, and the detection result signals Out1 and Out2 are confirmed (process 103). As a result of the confirmation, it is determined whether or not the detection result signals Out1 and Out2 are both at the “L” level (determination 104). If the determination 104 is No, that is, the NCU unit 20 is correctly connected to the connector CN1 via the harness H. If so, the facsimile function flag Ff is set to 1 (process 105), and the process proceeds to process 112.
[0063]
When the determination 104 is Yes, that is, when the NCU unit 20 is not correctly connected to the connector CN1 via the harness H, the display D01 shown in FIG. 8 is displayed on the display 9g of the operation display unit 9. However, the processing waits until the [Yes] key 9d or the [No] key 9e is pressed (No in judgment 107, No loop in judgment 108). The message “Is the NCU unit not installed?” On the display D01 is for confirming the user's recognition regarding the attachment of the NCU unit 20 to the main body of the data processing apparatus 1, and the [Yes] key 9d is pressed. If YES (Yes in decision 107), the determination result of the system control unit 2 in YES in decision 104 that the NCU unit 20 is not connected matches the user's recognition. The facsimile function flag Ff is set to 0.
[0064]
When the [No] key 9e is pressed (Yes in determination 108), the determination result of the system control unit 2 in Yes in determination 104 that the NCU unit 20 is not connected does not match the user's recognition. Therefore, the display D02 shown in FIG. 8 is displayed on the display 9g for a certain period of time, and the user may physically attach the NCU unit 20 to the main body of the data processing apparatus 1, but the harness H is connected to the connector CN1. After indicating that the connection may not have been made correctly and alerting the user (process 109, process 110), the process proceeds to process 111, and the facsimile function flag Ff is set to 0.
[0065]
After setting the facsimile function flag Ff in the process 105 or 111, the mode setting signal Sm is set to “OFF”, the detection mode setting unit 11 is returned to the line DC loop detection mode (process 112), and then the standby state is set. Transition. Note that the NCU connection state detection mode may be performed not only when the apparatus power is turned on but also at regular intervals in a standby state after startup. In this case, the connection state of the NCU unit 20 can be automatically detected even during operation.
[0066]
In the standby state, the system control unit 2 performs the facsimile function execution control procedure shown in FIG.
[0067]
In the figure, the system control unit 2 detects whether a facsimile function activation event has occurred, specifically, a facsimile transmission operation input from the operation display unit 9 or a call signal detected by the call signal detection unit 21 of the NCU unit 20. Then, other processes are executed while monitoring whether an incoming call or the like of the facsimile communication is received (No in judgment 210, loop in process 202).
[0068]
If a facsimile function activation event occurs (Yes in determination 201), it is determined whether the value of the facsimile function flag Ff is 1 (0), that is, whether the NCU unit 20 is correctly installed. (Decision 203) If the value of the facsimile function flag Ff is 1 (Yes in determination 203), the facsimile function is executed (process 204), and the process returns to determination 201. If the value of the facsimile function flag Ff is 0 (No in the determination 203), the process returns to the determination 201 without executing the facsimile function. As a result, the control procedure is switched so that a facsimile function that cannot be performed if the NCU unit 20 is not properly mounted is performed only when the NCU unit 20 is correctly mounted, so that useless operations are not performed. be able to.
[0069]
In the embodiment described above, the present invention is applied to the data processing apparatus in which the processing target data is image data. However, the present invention is not limited by the content of the processing target data, and a telephone line is used. If a data processing device having a configuration capable of data communication via a telephone line is installed as long as a unit necessary for communication via the device is correctly attached, the present invention can be similarly applied.
[0070]
【The invention's effect】
According to the invention of claim 1, the detection signal output from the DC detection unit for detecting the presence or absence of a DC loop of the telephone line provided for communication via the telephone line by the communication unit. By using this, it is possible to accurately determine whether or not the communication unit is correctly mounted in a usable state from the apparatus main body without newly adding a special configuration for detecting the mounting state on the communication unit side. An effect of enabling automatic detection is obtained.
[0071]
According to the invention of claim 2, the communication unit outputs from the DC detection unit for detecting the presence / absence of each of the direct / reverse DC loops of the telephone line provided for communication via the telephone line. By using the detected signal, whether or not the communication unit is correctly mounted in a usable state from the apparatus main body without newly adding a special configuration for detecting the mounting state to the communication unit side. It is possible to detect automatically whether or not the external telephone is off-hook, and it is possible to prevent the erroneous detection of the mounting state of the communication unit. .
[0072]
According to the invention of claim 3, in order to display a confirmation message about the detection result of the connection state of the communication unit, the user physically attaches the communication unit to the apparatus main body. When the harness for attaching to the main body of the device is not properly connected, the recognition of the user who thinks that the communication unit is attached to the main body of the device, and the actual communication unit can be used by the main body of the device In such a state, it is possible to allow the user to confirm a discrepancy with the reality that is not worn, and it is possible to promote the reliable attachment of the communication unit to the apparatus main body.
[0073]
According to the invention according to claim 4, since the control procedure related to the communication function is not executed in a state where the communication unit is not connected and the communication function using the communication unit cannot be used, the connection state of the communication unit and An effect is obtained that enables consistency with the control procedure of the apparatus main body.
[Brief description of the drawings]
FIG. 1 is a diagram showing a block configuration of a data processing apparatus according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating an example of an arrangement configuration in which an operation display unit of the data processing apparatus according to the embodiment of the present invention is omitted except for a portion directly related to the present embodiment.
FIG. 3 is a diagram showing a specific configuration or the like of the NCU of the data processing apparatus according to the embodiment of the present invention.
FIG. 4 is a diagram showing a specific configuration of a current detection unit and a detection mode setting unit of the data processing device according to the embodiment of the present invention.
FIG. 5 is a diagram showing signal states in a line DC loop detection mode during normal operation.
FIG. 6 is a diagram showing signal states in an NCU connection state detection mode.
FIG. 7 is a flowchart showing a processing procedure at power-on in the data processing apparatus according to the embodiment of the present invention.
FIG. 8 is a diagram showing a display example in the processing procedure of FIG. 7;
FIG. 9 is a flowchart showing a facsimile function execution control procedure in the data processing apparatus according to the embodiment of the present invention.
[Explanation of symbols]
1 Facsimile device
2 System controller
3 ROM
4 RAM
5 Scanner
6 Plotter
7 PC interface
8 Coding / decoding unit
9 Operation display
9a Numeric keypad
9b [Start] key
9c [Stop] key
9d [Yes] key
9e [No] key
9f [Function]
9g display
10 Modem
11 Detection mode setting section
12 System bus
20 NCU units
21 Call signal detector
22 Current detector
22a Magnetic sensor
22b amplifier
22c, 22d comparator
30 External telephone
40 Personal computer
R1, R2, R3, R4 Voltage dividing resistor
Tr1, Tr2 transistors
RY relay
LT line transformer
CN1, CN2, CN3 connectors

Claims (4)

In a data processing apparatus capable of adding a communication function via the telephone line by attaching a communication unit connected to the telephone line to the apparatus main body,
Depending on the signal state of the DC detection signal input terminal to which the detection signal output from the current detection unit that detects the presence or absence of the DC loop of the telephone line included in the communication unit when the communication unit is attached to the apparatus main body is input In normal operation, the presence or absence of a DC loop of the telephone line is detected, and in the detection mode of the connection state of the communication unit, it is detected whether or not the communication unit is mounted on the apparatus body. A data processing apparatus comprising a direct current loop / mounting state detecting means. In a data processing apparatus capable of adding a communication function via the telephone line by attaching a communication unit connected to the telephone line to the apparatus main body,
While the communication unit can be connected to an external telephone, a current detection unit that detects the presence or absence of each of the direct current loops of the telephone line included in the communication unit when the communication unit is attached to an apparatus main body. In normal operation, the presence or absence of a DC loop on either the forward or reverse side of the telephone line is detected according to the signal states of the first and second DC detection signal input terminals to which the forward and reverse detection signals output from In the communication unit connection state detection mode, the data processing further comprises a DC loop / mounting state detecting means for detecting whether or not the communication unit is mounted so as to be usable by the apparatus main body. apparatus. 3. The data processing according to claim 1, further comprising message display means for displaying a confirmation message about the detection result of the connection state of the communication unit by the DC loop / mounting state detection means. apparatus. When the DC loop / mounting state detection unit detects that the communication unit is not connected, the communication unit further includes a communication function stop unit that prohibits execution of a control procedure related to a communication function using the communication unit. 4. The data processing apparatus according to claim 1, 2, or 3.

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