JP3930633B2 - Automatic signal switching device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a communication device such as a modem, a mobile phone, a car phone, a second generation cordless phone, a CDMA phone, and the like provided with communication means, an information terminal provided with means for processing data from the communication device, and a connection method thereof The present invention relates to an automatic signal switching device.
[0002]
[Prior art]
  Japanese Laid-Open Patent Publication No. 8-307554 discloses a communication control device that realizes automatic determination of a connection state and a connected model of a communication terminal to be connected, and an alternating current that flows in a local line that connects the communication terminal at startup. By providing a connection device determination procedure for identifying communication terminal attributes from the called signal of the communication terminal and an AC current detection means for detecting the communication terminal, eliminating the need to predetermine the communication terminal to be connected to the local line, An arbitrary communication terminal is connected to the local line.
[0003]
  Further, display means for displaying the attributes of the communication terminals connected to the local line is provided, and the communication terminal attributes can be displayed visually. Japanese Patent Application Laid-Open No. 60-203054 discloses a controlled circuit board mounting confirmation method that realizes connection confirmation of a controlled circuit board connected to the central processing unit. Controls the opening and closing of the signal, and has a three-level input / output gate whose output is connected to the external connection terminal. When the controlled circuit board is not mounted, the output gate is controlled to a high impedance state. It is determined whether or not the controlled circuit board is mounted based on the output.
[0004]
  Japanese Laid-Open Patent Publication No. 5-303456 discloses an information processing apparatus for determining whether or not a plurality of child boards are mounted on a parent board, and different resistance values are set for each child board. A resistor is provided as a part of the voltage dividing resistor, and a parent circuit board includes a voltage dividing circuit that is completed when a child board is connected, and an A / D converter that measures a divided potential at a predetermined position. Based on the electric potential that flows when the sub-board is connected, automatic determination of whether or not the sub-board is mounted and the type of the sub-board is realized.
[0005]
[Problems to be solved by the invention]
  The above-described automatic determination method of the connected terminal type of the communication terminal disclosed in JP-A-8-307554 requires an AC current detection circuit for detecting the AC current flowing from the communication terminal, which causes an increase in cost.
[0006]
  Similarly, the automatic determination method of the mounting state of the child board of the information processing apparatus described in JP-A-5-303456 requires an A / D converter that measures different divided potentials for each child board, which increases the cost. It is a factor of.
[0007]
  Further, the controlled circuit mounting confirmation method disclosed in Japanese Patent Application Laid-Open No. 60-203054 has no means for automatically discriminating the attribute of the connected controlled circuit, and only the presence / absence of connection of a known controlled circuit board is simply determined. Identify.
[0008]
  Further, the methods disclosed in the above-mentioned published patent publications are different in input / output methods and signal potentials.-FeIIt is not possible to connect multiple types of communication devices with the same interface on the same interface.IOnly compatible devices with a cable can be used.
[0009]
  The present invention solves the above problem by automatically determining the attributes of a connected communication device at low cost without using a circuit that causes an increase in cost such as an AC current detection circuit.-FeIBy automatically switching the input / output method and signal potential of the interface, the input / output method and signal potential are different.-FeIConnections to multiple types of communication devices with the same interfaceIIt is intended to be realized on the network.
[0010]
[Means for Solving the Problems]
  The automatic signal switching device according to claim 1 is provided with data from a communication device for use in connection with a communication device such as a modem, a mobile phone, a car phone, a second generation cordless phone, and a CDMA phone provided with communication means. In an automatic signal switching device provided in an information terminal having means for processing,
  Input / output methodOrSignal powerRankIn order to realize a plurality of types of communication devices having different interfaces on the same interface of the information terminal, an interface unit including a connector accommodating a specific notification terminal;
  A communication device that is created so that the potential of the specific notification terminal changes in a predetermined pattern when connected to the connector is connected to the interface unit, and the communication device that reaches the specific notification terminal Different patterns are detected, the interface of the communication device is determined from the detected pattern, and the input / output method of the connector terminal is determined according to the determination result.OrSignal powerPlaceSwitching means for switchingSee
  The communication device is prepared with and without a means for suppressing the occurrence of chattering in the specific notification terminal when connected to the connector of the interface unit,
  The switching means detects, as the signal change, whether chattering occurs in the specific notification terminal when the communication device is connected to the connector.This is an automatic signal switching device.
  The automatic signal switching device according to claim 2 is provided with data from the communication device in order to provide connection with a communication device such as a modem, a mobile phone, a car phone, a second generation cordless phone, a CDMA phone or the like equipped with communication means. In an automatic signal switching device provided in an information terminal having means for processing,
  In order to realize a plurality of types of communication devices having interfaces with different input / output methods or signal potentials on the same interface of the information terminal, an interface unit including a connector that accommodates a specific notification terminal;
  A communication device that is created so that the potential of the specific notification terminal changes in a predetermined pattern when connected to the connector is connected to the interface unit, and the communication device that reaches the specific notification terminal Detecting different patterns, discriminating the interface of the communication device from the pattern to be detected, and switching means for switching the input / output method or signal potential of the terminal of the connector according to the discrimination result,
  The communication device has a pin connected to a specific notification terminal of the connector, different from a pin connected to the other terminal of the connector, and a pin having a different length for each communication device,
  When the communication device is connected to the connector, the switching means is connected to the communication device due to a difference in time difference between a detection time of connection to another terminal and a detection time of connection to the specific notification terminal. It is an automatic signal switching device characterized by discriminating.
  The automatic signal switching device according to claim 3 is provided with data from a communication device for connection to a communication device such as a modem, a mobile phone, a car phone, a second generation cordless phone, or a CDMA phone provided with a communication means. In an automatic signal switching device provided in an information terminal having means for processing,
  In order to realize a plurality of types of communication devices having interfaces with different input / output methods or signal potentials on the same interface of the information terminal, an interface unit including a connector that accommodates a specific notification terminal;
  A communication device that is created so that the potential of the specific notification terminal changes in a predetermined pattern when connected to the connector is connected to the interface unit, and the communication device that reaches the specific notification terminal Detecting different patterns, discriminating the interface of the communication device from the pattern to be detected, and switching means for switching the input / output method or signal potential of the terminal of the connector according to the discrimination result,
  The communication device transmits the number of contact surfaces of a terminal connected to a specific notification terminal of the connector. Different number for each communication device,
  The switching means is an automatic signal switching device characterized in that when a communication device is connected to the connector, the connected communication device is discriminated based on a difference in the number of signal changes of the specific notification terminal. .
[0011]
  Claim4The automatic signal switching device described above includes an overcurrent protection circuit that prevents an overcurrent from flowing when the communication device is erroneously connected to the interface unit.
[0012]
  Claim5In the automatic signal switching device described above, the switching unit notifies the processing unit of the information terminal that a communication device is connected when detecting a signal change of the specific notification terminal.
[0013]
  Claim6In the automatic signal switching device described above, the switching means includes:
  Hardware for detecting a signal change of the specific notification terminal;
  When the hardware detects that the communication device is connected to the interface unit, it receives a notification corresponding to the signal change from the hardware, determines the communication device based on the notification, and is connected Notifying the interface unit of information according to the communication device, the connector terminal input / output methodOrSignal powerPlaceAnd a control means for switching.
[0014]
  Claim7In the automatic signal switching device described above, the control means includes:
  When nothing is connected to the connector, the hardware of the switching means is activated so that it can operate by consuming current so that the signal change of the specific notification terminal can be detected. And the interface part is deactivated so as not to consume current,
  When a notification corresponding to a signal change of a specific notification terminal is received from the hardware, the hardware is deactivated and the interface unit is activated.
[0015]
  Claim8In the automatic signal switching device described above, the control means sets all the terminals of the connector to the input mode when nothing is connected to the connector.
[0016]
  Claim9In the automatic signal switching device described above, the switching means has a hysteresis to prevent erroneous recognition of the communication device connected by chattering of the specific notification terminal when the communication device is connected to the connector of the interface unit. A buffer circuit is provided.
[0018]
[0019]
[0020]
[0023]
  Claim11Automatic signal switching deviceThe communication device is prepared with and without a capacitor connected to a specific notification terminal of the connector,
  When the communication device is connected to the connector, the switching means determines the connected communication device depending on whether or not the signal change of the specific notification terminal is due to charging of the capacitor. It is characterized by.
[0024]
[0025]
[0026]
[0027]
[0028]
[0029]
[0030]
DETAILED DESCRIPTION OF THE INVENTION
  (First embodiment)
  As shown in FIG. 1, the automatic signal switching apparatus according to the first embodiment includes, in the information terminal 1, a control unit 2 that controls a connection interface between the information terminal 1 and the communication device 30, and attributes of the connected communication device 30. The determination unit 3 that automatically determines, the wiring 52 for receiving the connection notification 102 from the communication device 30, and the switching unit 7 that automatically switches between the input buffer 5 and the output buffer 6 by the switching control 108 from the determination unit 3. And a wiring 58 for passing an input / output signal 107 such as a control signal and data between the communication device 30 and the switching unit 7, and a control signal and data from the switching unit 7 via the input buffer 5, Wiring 56 for sending to the control unit 2, wiring 57 for sending control signals and data from the control unit 2 to the switching unit 7 via the open collector type output buffer 6, the communication device 30 and each wiring Connect Connector 8 that accommodates a terminal for the purpose, and each pull-up for giving a specified level of an input signal to the output unit of the communication device 30 in a state where nothing is connected to each input unit. With resistance.
[0031]
  In addition, when the communication device 30 is connected to the information terminal 1, a notification unit 32 that transmits the connection of the communication device 30 and the attributes of the communication device 30, and a connection notification 102 from the notification unit 32 to the information terminal 1 A signal output unit 34 for transferring an input / output signal 107 such as a control signal and data between the wiring 71 and the information terminal 1 and a signal input unit (not shown) are provided. Before the communication device 30 is connected to the information terminal 1, the connection notification 102 to the determination unit 3 is not made, and the wiring 52 connected to the determination unit 3 always notifies the H level by the pull-up resistor 521. ing. Further, since the polarity of the signal line for signal input / output of the communication device 30 is unknown, the switching unit 7 is connected to the wiring 57 connected to the open collector type output buffer 6 and the terminal 804 of the connector 8. The determination unit 3 performs the switching control 108 so that the wiring 58 is connected.
[0032]
  When the communication device 30 is connected to the information terminal 1, the connection notification 102 from the notification unit 32 reaches the determination unit 3 at the moment when the terminal 801 of the connector 8 and the terminal 311 of the connector 31 are connected. 30 connections and attributes are determined. By generating different patterns from the notification unit 32 depending on the communication device, the determination unit 3 can determine that the communication device is connected and the type of the communication device.
[0033]
  2 and 3 show configuration examples of the determination unit 3 and the notification unit 32. FIG. FIG. 2 is an example in which when the communication device A is connected to the information terminal 1, the determination unit 3 evaluates the state of the wiring 52 after the connection notification 102 as L. FIG. 3 is an example in which when the communication device B is connected to the information terminal 1, the determination unit 3 evaluates the state of the wiring 52 after receiving the connection notification 102 as H.
[0034]
  FIG. 4 shows a flowchart for determining the attributes of the communication device. The determination process is performed by waiting for a time T1 required for connector connection from when the connection notification is made until the connection is completed, and then evaluating the state of the connection notification. When a communication device is connected to the information terminal 1, a connection notification is made and a processing sequence (1001) is started. When the determination process is started, a determination (1002) is made to wait for a time T1 for completing the connector connection. When the time T1 elapses, the process exits this loop, executes the process (1003) for evaluating the state of the next connection notification, and judges the evaluation result (1004).
[0035]
  In the case of the example in FIG. 2, the determination unit 3 makes the connection notification after time T1 L, so in the next process (1005), the communication apparatus A is connected and the determination process is I / F adapted (1007). . In the example of FIG. 3, the determination unit 3 determines the evaluation result (1004) because the connection notification after time T1 is H, and performs the determination process with the communication device B as a connection in the next process (1006). I / F compatible (1007).
[0036]
  As another example, FIGS. 5 and 6 have an attribute notification table for determining the attribute of the communication device based on the number of pulses at the time of connection notification in the determination unit 3, and the shape of the contact for performing connection notification of the notification unit 32. The number of stages varies depending on the attribute of the communication device, and the attribute of the communication device is determined based on the number of pulses at the time of connection notification.
[0037]
  FIG. 5 shows an embodiment in which when the communication device C is connected to the information terminal 1, the determination unit 3 determines c−1 clock-like pulses after the connection notification. FIG. 6 shows an embodiment in which when the communication device D is connected to the information terminal 1, the determination unit 3 determines d−1 clock pulses.
[0038]
  FIG. 7 shows a flowchart for determining the attributes of the communication device. In the determination process, the number of times a pulse is generated within the time T1 necessary for connector connection from when connection notification is made until connection is completed is performed based on the count value. When a communication device is connected to the information terminal 1, a connection notification is made and a processing sequence (2001) is started. First, the count value n is initialized (2002). When the determination process is started, a process (2003) of adding a count at the rising edge of the pulse is executed. Since this process is always performed while the time T1 elapses, the process continues in the return loop from the determination of the next elapse of time (2004). When the time T1 elapses, the process exits this loop and proceeds to the determination of the count value within the next time T1 (2005). In the case of the embodiment of FIG. 5, since the determination unit 3 determines c-1 rising pulses after the connection notification, the count value n becomes c-1, and the communication device C in the next process (2006). And I / F adaptation (2010) for the determination process. In the case of the embodiment of FIG. 6, since the determination unit 3 counts d-1 rising pulses following the connection notification, n is not c-1 in the determination (2005), but in the next determination (2007). Then, the count value n becomes d−1, and in the next process (2008), the communication device D is connected and I / F adaptation (2010) is performed. In this embodiment, an arbitrary type of attribute is determined based on the number of stages of terminals that perform connection notification of the communication device, and I / F conformance is achieved.
wear.
[0039]
  In FIG. 1, the determination unit 3 determines the attribute of the communication device 30, and sends a switching control 108 to the switching unit 7 in order to match the characteristics of the signal input / output unit of the communication device 30, between the information terminal 1 and the communication device 30. The control signal and data can be exchanged at
[0040]
  In FIG. 1, the part for transferring control signals and data between the information terminal 1 and the communication device 30 is described only for one system. However, by having a plurality of switching controls, a plurality of control signals and An interface for passing data can be realized.
[0041]
  (Second embodiment)
  With the same configuration as in the first embodiment, as shown in FIG. 8, when the information terminal 1 and the communication device 30 are connected, the attribute of the communication device 30 is erroneously determined and pulled up with V2 (V) of the communication device 30 When the switching control 108 is performed so that the signal input / output wiring 58 connected to the terminal 802 of the information terminal 1 connected to the signal input unit 35 is connected to the wiring 56 pulled up by V1 (V), V1 In order to prevent an overcurrent from flowing out due to the potential difference between V2 and V2, an overcurrent prevention 562 is inserted on the wiring 56 to the input buffer of the information terminal 1.
[0042]
  (Third embodiment)
  As shown in FIG. 9, the signal automatic switching device according to the third embodiment includes, in the information terminal 1, the control unit 2 that controls the connection interface between the information terminal 1 and the communication device 30, and the attributes of the connected communication device 30. The determination unit 3 that automatically determines, the wiring 52 for receiving the connection notification 102 from the communication device 30, and the switching unit 7 that automatically switches between the input buffer 5 and the output buffer 6 by the switching control 108 from the determination unit 3. An interrupt 51 for reporting the determination result 101 from the determination unit 3 to the control unit 2, and an input / output signal 107 such as a control signal or data between the communication device 30 and the switching unit 7. Wiring 58, wiring 56 for sending control signals and data from the switching unit 7 to the control unit 2 via the input buffer 5, and control signals and data from the control unit 2 are open collector type output buffer 6 The Therefore, the wiring 57 for sending to the switching unit 7, the connector 8 accommodating the terminal for connecting the communication device 30 and each wiring, and the state where nothing is connected to each input unit, the H level is given. In the connected state, each pull-up resistor for providing a specified level of the input signal to the output unit of the communication device 30 is provided.
[0043]
  In addition, when the communication device 30 is connected to the information terminal 1, a notification unit 32 that transmits the connection of the communication device 30 and the attributes of the communication device 30, and a connection notification 102 from the notification unit 32 to the information terminal 1 A signal output unit 34 for transferring an input / output signal 107 such as a control signal and data between the wiring 71 and the information terminal 1 and a signal input unit (not shown) are provided.
[0044]
  Before the communication device 30 is connected to the information terminal 1, the connection notification 102 to the determination unit 3 is not made, and the wiring 52 connected to the determination unit 3 always notifies the H level by the pull-up resistor 521. ing. Further, since the polarity of the signal line for signal input / output of the communication device 30 is unknown, the switching unit 7 is connected to the wiring 57 connected to the open collector type output buffer 6 and the terminal 804 of the connector 8. The determination unit 3 performs the switching control 108 so that the wiring 58 is connected.
[0045]
  When the communication device 30 is connected to the information terminal 1, the connection notification 102 from the notification unit 32 reaches the determination unit 3 at the moment when the terminal 801 of the connector 8 and the terminal 311 of the connector 31 are connected. 30 connections and attributes are determined. By generating different patterns from the notification unit 32 depending on the communication device, the determination unit 3 can determine that the communication device is connected and the type of the communication device. This method is the same as in the first embodiment. The determination unit 3 determines the attribute of the communication device 30 and sends a switching control 108 to the switching unit 7 to match the characteristics of the signal input / output unit of the communication device 30 to control signals between the information terminal 1 and the communication device 30. In addition, an interrupt 51 for reporting the determination result 101 to the control unit 2 is generated.
[0046]
  In FIG. 9, only one system is described for passing control signals and data between the information terminal 1 and the communication device 30, but by having a plurality of switching controls, a plurality of system control signals and An interface for passing data can be realized.
[0047]
  (Fourth embodiment)
  As shown in FIG. 10, the automatic signal switching apparatus according to the fourth embodiment includes, in the information terminal 1, a control unit 2 that controls a connection interface between the information terminal 1 and the communication device 30, and a communication device connected to the control unit 2. The determination unit 3 that performs a report corresponding to the connection notification 102 from 30, the wiring 52 for the determination unit 3 to receive the connection notification 102 from the communication device 30, and the determination result 101 from the determination unit 3 to the control unit 2 Control signals and data between the interrupt 51 for reporting, the switching unit 7 for automatically switching the input buffer 5 and the output buffer 6 by the switching control 108 from the control unit 2, and the communication device 30 and the switching unit 7. Wiring 58 for passing I / O signals 107 such as, wiring 56 for sending control signals and data from the switching unit 7 to the control unit 2 via the input buffer 5, and control from the control unit 2 Signals and data Via the open collector type output buffer 6, a wire 57 for sending to the switching unit 7, a connector 8 containing a terminal for connecting each wire to the communication device 30, and nothing is connected to each input unit. Each pull-up resistor is provided to give a specified level of the input signal to the output unit of the communication device 30 in the connected state.
[0048]
  In addition, when the communication device 30 is connected to the information terminal 1, a notification unit 32 that transmits the connection of the communication device 30 and the attributes of the communication device 30, and a connection notification 102 from the notification unit 32 to the information terminal 1 A signal output unit 34 for transferring an input / output signal 107 such as a control signal and data between the wiring 71 and the information terminal 1 and a signal input unit (not shown) are provided.
[0049]
  Before the communication device 30 is connected to the information terminal 1, the connection notification 102 to the determination unit 3 is not made, and the wiring 52 connected to the determination unit 3 always notifies the H level by the pull-up resistor 521. ing. Further, since the polarity of the signal line for signal input / output of the communication device 30 is unknown, the switching unit 7 is connected to the wiring 57 connected to the open collector type output buffer 6 and the terminal 804 of the connector 8. The control unit 2 performs the switching control 108 so that the wiring 58 is connected.
[0050]
  When the communication device 30 is connected to the information terminal 1, the connection notification 102 from the notification unit 32 reaches the determination unit 3 at the moment when the terminal 801 of the connector 8 and the terminal 311 of the connector 31 are connected. An interrupt 51 to the control unit 2 corresponding to the pattern 102 is generated. The control unit 2 determines the connection and attribute of the communication device 30 based on the interrupt 51. By generating different patterns from the notification unit 32 depending on the communication device, the control unit 2 can determine that the communication device is connected and the type of the communication device.
[0051]
  11 and 12 show configuration examples of the determination unit 3 and the notification unit 32. FIG. FIG. 11 shows an embodiment in which when the communication device A is connected to the information terminal 1, after the determination unit 3 sends the connection notification interrupt 51 to the control unit 2, the control unit 2 evaluates the connection notification state as L. It is. FIG. 12 shows an embodiment in which when the communication device B is connected to the information terminal 1, the determination unit 3 sends the connection notification interrupt 51 to the control unit 2, and then the control unit 2 evaluates the connection notification state as H. It is.
[0052]
  FIG. 13 shows a flowchart for determining the attributes of the communication device. The determination process is performed by evaluating a connection notification state after waiting for a time T1 necessary for connector connection from when the connection notification interrupt is performed until the connection is completed. When a communication device is connected to the information terminal 1, a connection notification interrupt is generated and a processing sequence (3001) is started. When the determination process is started, a connection notification interrupt prohibition process (3002) is executed to prevent multiple connection notification interrupts from occurring in time T1. Next, the process proceeds to judgment (3003) for waiting for a time T1 required for connector connection. When the time T1 elapses, the process exits this loop, executes the process (3004) for evaluating the state of the next connection notification, and judges the evaluation result (3005).
[0053]
  In the case of the example of FIG. 11, since the state of connection notification from the determination unit 3 to the control unit 2 after time T1 is L, the determination process ends with the communication device A connected in the next process (3006). .
[0054]
  In the example of FIG. 12, since the state of the connection notification from the determination unit 3 to the control unit 2 after time T1 is H, the evaluation result is determined (3005) and the communication device is used in the next process (3007). The determination process ends with B as the connection. When the determination processing is completed, in order to enable automatic determination at the time of connection of the next communication device, connection notification interrupt permission processing (3008) is performed, and all processing for determining the attribute of the communication device is ended, and I / F fit (3009).
[0055]
  As another embodiment, FIG. 14 and FIG. 15 have an attribute notification table for determining the attribute of the communication device based on the number of attribute notification interrupts at the time of connection notification in the control unit 2, and The number of stages differs depending on the attribute of the communication device, and the attribute of the communication device is determined based on the number of attribute notification interrupts at the time of connection notification. FIG. 14 shows an embodiment in which when the communication device C is connected to the information terminal 1, the control unit 2 determines c-1 attribute notification interrupts from the determination unit 3. FIG. 15 shows an embodiment in which when the communication device D is connected to the information terminal 1, the control unit 2 determines d−1 attribute notification interrupts from the determination unit 3.
[0056]
  FIG. 16 shows a flowchart for determining the attribute of the communication device. In the determination process, the number of attribute interruptions due to the rising edge of the pulse within the time T1 required for connector connection from the connection notification interrupt to the completion of the connection is performed based on the count value. When a communication device is connected to the information terminal 1, a connection notification interrupt is generated and a processing sequence (4001) is started. When the determination process is started, a connection notification interrupt prohibition process (4002) is executed in order to prevent multiple connection notification interrupts from occurring within time T1. Next, processing (4003) for initializing the count value of the number of attribute interruptions occurring within time T1 is executed.
[0057]
  Next, processing for permitting attribute interruption (4004) is executed, and the process proceeds to determination (4005) for waiting for a time T1 necessary for connector connection. The attribute interrupt process (4101) ends when the process (4004) for permitting the attribute interrupt in the connection interrupt process is executed and the process (4102) for counting the number of attribute interrupts every time an attribute interrupt occurs. (4103). When the waiting time of the time T1 required for connector connection in the connection interrupt processing ends, the attribute interrupt prohibition processing (4006) is executed, and an illegal attribute interrupt occurs after the time T1 required for connector connection elapses. prevent. Next, from the count value obtained by the attribute interruption, the process proceeds to the part for determining the attribute of the communication device (4007).
[0058]
  In the case of the example of FIG. 14, the control unit 2 receives attribute interrupts c-1 times following the connection notification interrupt. Therefore, in the determination (4007), the count value n is c-1, and the next process (4008) is performed. Thus, the determination process is ended with the communication device C connected. In the case of the embodiment of FIG. 15, since the control unit 2 receives attribute interruption d-1 times following the connection notification interruption, n is not c-1 in the determination (4007), but n in the next determination (4009). Becomes d−1, and in the next process (4010), the communication apparatus D is connected and the determination process ends. In the case of this embodiment, an arbitrary type of attribute can be determined by the number of stages of terminals that perform connection notification of the communication device.
[0059]
  When the determination process is completed, the connection notification is made to enable automatic determination when the next communication device is connected.
An interrupt permission process (4012) is performed, and all the processes for determining the attribute of the communication device are terminated, and I / F adaptation (4013) is performed.
[0060]
  In FIG. 10, the control unit 2 sends a switching control 108 to the switching unit 7 to match the characteristics of the signal input / output unit of the communication device 30 based on the attribute determination of the communication device 30, and between the information terminal 1 and the communication device 30. It is possible to exchange control signals and data. In FIG. 10, only one system is described for passing control signals and data between the information terminal 1 and the communication device. However, by having a plurality of switching controls, a plurality of control signals and data are provided. It is possible to realize an interface for passing.
[0061]
  (5th Example)
  As shown in FIG. 17, the automatic signal switching apparatus of the fifth embodiment includes, in the information terminal 1, a control unit 2 that controls a connection interface between the information terminal 1 and the communication device 30, and a communication device connected to the control unit 2. The determination unit 3 that performs a report corresponding to the connection notification 102 from 30, the wiring 52 for the determination unit 3 to receive the connection notification 102 from the communication device 30, and the determination result 101 from the determination unit 3 to the control unit 2 Automatically by an interrupt 51 for reporting, an activation control 109 for automatically activating / deactivating each of the determination unit 3 and the connection interface automatically from the control unit 2, and a switching control 108 from the control unit 2 From the switching unit 7 for switching the input buffer 5 and the output buffer 6, the wiring 58 for passing the input / output signal 107 such as a control signal and data between the communication device 30 and the switching unit 7, and the switching unit 7 System of A wiring 56 for sending signals and data to the control unit 2 via the input buffer 5 and a control signal and data from the control unit 2 to the switching unit 7 via the open collector type output buffer 6 Wiring 57, connector 8 that accommodates a terminal for connecting each line to communication device 30, and H level is given when nothing is connected to each input section, and communication device 30 is connected when connected. Each pull-up resistor is provided to give a specified level of the input signal to the output unit.
[0062]
  In addition, when the communication device 30 is connected to the information terminal 1, a notification unit 32 that transmits the connection of the communication device 30 and the attributes of the communication device 30, and a connection notification 102 from the notification unit 32 to the information terminal 1 A signal output unit 34 for transferring an input / output signal 107 such as a control signal and data between the wiring 71 and the information terminal 1 and a signal input unit (not shown) are provided.
[0063]
  Before the communication device 30 is connected to the information terminal 1, the connection notification 102 to the determination unit 3 is not made, and the wiring 52 connected to the determination unit 3 always notifies the H level by the pull-up resistor 521. ing. In addition, the control unit 2 activates only the determination unit 3 by the activation control 109, and the connection interface is in an inactive state in which no current is consumed.
[0064]
  The determination when the communication device 30 is connected to the information terminal 1 is based on the same method as in the fourth embodiment. At the same time that the control unit 2 deactivates the determination unit 3 and activates the connection interface by the activation control 109 to match the characteristics of the signal input / output unit of the communication device 30 by determining the attribute of the communication device 30. Then, a switching control 108 is sent to the switching unit 7 so that control signals and data can be exchanged between the information terminal 1 and the communication device 30.
[0065]
  In FIG. 17, only one system is described for passing control signals and data between the information terminal 1 and the communication device. However, by having a plurality of switching controls, control signals and data for a plurality of systems are provided. It is possible to realize an interface for passing.
[0066]
  (Sixth embodiment)
  As shown in FIG. 18, the automatic signal switching apparatus according to the sixth embodiment includes, in the information terminal 1, a control unit 2 that controls a connection interface between the information terminal 1 and the communication device 30, and a communication device connected to the control unit 2. The determination unit 3 that performs a report corresponding to the connection notification 102 from 30, the wiring 52 for the determination unit 3 to receive the connection notification 102 from the communication device 30, and the determination result 101 from the determination unit 3 to the control unit 2 Control signals and data between the interrupt 51 for reporting, the switching unit 7 for automatically switching the input buffer 5 and the output buffer 6 by the switching control 108 from the control unit 2, and the communication device 30 and the switching unit 7. Wiring 58 for passing I / O signals 107 such as, wiring 56 for sending control signals and data from the switching unit 7 to the control unit 2 via the input buffer 5, and control from the control unit 2 Signals and data Via the open collector type output buffer 6, a wire 57 for sending to the switching unit 7, a connector 8 containing a terminal for connecting each wire to the communication device 30, and nothing is connected to each input unit. Each pull-up resistor is provided to give a specified level of the input signal to the output unit of the communication device 30 in the connected state.
[0067]
  In addition, when the communication device 30 is connected to the information terminal 1, a notification unit 32 that transmits the connection of the communication device 30 and the attributes of the communication device 30, and a connection notification 102 from the notification unit 32 to the information terminal 1 A signal input unit 35 and a signal output unit (not shown) for transferring an input / output signal 107 such as a control signal and data between the wiring 71 and the information terminal 1 are provided.
[0068]
  Before the communication device 30 is connected to the information terminal 1, the connection notification 102 to the determination unit 3 is not made, and the wiring 52 connected to the determination unit 3 always notifies the H level by the pull-up resistor 521. ing. Further, since the polarity of the signal line for signal input / output of the communication device 30 is unknown, the wiring 56 connected to the input buffer 5 in the switching unit 7 and the wiring 58 connected to the terminal 804 of the connector 8 The control unit 2 performs the switching control 108 so as to be connected.
[0069]
  From the time when the communication device 30 is connected to the information terminal 1 to the time when the attribute of the communication device 30 is determined and the characteristics of the signal input / output unit of the connection interface unit of the information terminal 1 are matched, V2 (V) of the communication device In order to prevent an overcurrent due to a potential difference between V1 and V2 from flowing out when the terminal of the information terminal 1 connected to the terminal of the input polarity pulled up is a V1 (V) pullup input, An overcurrent prevention 562 is inserted on the wiring 56 to the input buffer 5 of the terminal 1.
[0070]
  The determination when the communication device 30 is connected to the information terminal 1 is based on the same method as in the fourth embodiment. The control unit 2 sends a switching control 108 to the switching unit 7 to match the characteristics of the signal input / output unit of the communication device 30 based on the attribute determination of the communication device 30, and controls the control signal between the information terminal 1 and the communication device 30. Make it possible to pass data.
[0071]
  In FIG. 18, only one system is described for passing control signals and data between the information terminal 1 and the communication device. However, by having a plurality of switching controls, a plurality of control signals and data are provided. It is possible to realize an interface for passing.
[0072]
  (Seventh embodiment)
  As shown in FIGS. 19 and 20, the signal automatic switching device of the seventh embodiment is connected to the information terminal 1 to the determination unit 3 that automatically determines the attribute of the connected communication device. In order to prevent chattering from occurring due to mechanical action due to the characteristics of the terminal of the connector and erroneously recognizing the connected communication device, the input buffer of the determination unit 3 has hysteresis characteristics.
[0073]
  (Eighth embodiment)
  In the signal automatic switching device of the eighth embodiment, when the notification unit 32 that notifies the attribute of the communication device to be connected connects the communication device to the information terminal 1, chattering is caused by the mechanical action due to the characteristics of the connector terminal. In the case of FIG. 21 in which the occurrence is not suppressed and when the notification unit 32 that notifies the attribute of the communication device to be connected connects the communication device to the information terminal 1, the mechanical action due to the characteristics of the terminal of the connector In the case of FIG. 22 in which the occurrence of chattering is suppressed by the time T1, the determination unit 52 of the information terminal 1 performs a period of time T1 required for connector connection after connection notification is made until connection is completed. The attribute of the connected communication device is determined based on the number of connection notifications notified to.
[0074]
  In the case of FIG. 21, when the communication device A is connected to the information terminal 1, chattering occurs due to mechanical action due to the characteristics of the connector terminal 801 and the terminal 331, and as a result, during the time T1 required for connector connection. A plurality of connection notifications are transmitted to the determination unit 3. On the other hand, in the case of FIG. 22, chattering is suppressed by the charge / discharge time constant due to the capacitive load, and as a result, one connection notification is transmitted to the determination unit 3 during the time T1 required for connector connection.
[0075]
  FIG. 23 shows a flowchart for determining the attribute of the communication device. In the judgment process, connection notification is performed.
This is performed based on the count value of the number of times the connection notification is generated within the time T1 required for connector connection from when the connection is completed. When a communication device is connected to the information terminal 1, a connection notification is made and a processing sequence (5001) is started. When the determination process is started, first, the count value n is initialized (5002). Next, processing (5003) of adding a count at the falling edge of the connection notification pulse is executed. Since this process is always performed while the time T1 elapses, the process continues in the return loop from the determination of the next elapse of time (5004). When the time T1 elapses, the process exits this loop, and proceeds to the determination of the count within the next time T1 (5005). In the case of the example of FIG. 21, since the determination unit 3 determines a plurality of connection notifications after the connection notification, the count value n is sufficiently larger than 1, and in the next process (5006), the communication device A The connection is terminated and the determination process is terminated and I / F adaptation (5008) is performed. In the case of the embodiment of FIG. 22, the determination unit 3 counts only one connection notification pulse, so that n is not sufficiently larger than 1 in determination (5005), and in the next processing (5007), the communication device The determination process is terminated with B as a connection, and I / F adaptation (5008) is performed.
[0076]
  (Ninth embodiment)
  As shown in FIG. 24, the automatic signal switching apparatus according to the ninth embodiment includes, in the information terminal 1, the control unit 2 that controls the connection interface between the information terminal 1 and the communication device 30, and the type of the connected communication device 30. The analysis unit 4 for determining, the wiring 54 for making the type inquiry 104 from the analysis unit 4 to the communication device 30, and the wiring 55 for receiving the type response 106 for the inquiry from the communication device 30 in the analysis unit 4 A handling bus 53 for performing analysis instructions 103 and status confirmation 105 from the control unit 2 to the analysis unit 4, an input buffer 5 and an output buffer 6 for passing control signals and data to and from the communication device 30, and a control unit 2 determines a connection characteristic based on an analysis result of the communication device 30 and automatically switches the input buffer 5 and the output buffer 6 by the switching control 108, and the communication device 30 In order to send the control signal and data from the switching unit 7 to the control unit 2 via the input buffer 6 and the wiring 58 for passing the control signal and the input / output signal 107 such as data to and from the replacement unit 7. Wiring 58, a wiring 57 for sending control signals and data from the control unit 2 to the switching unit 7 via the open collector type output buffer 5, and a terminal for connecting each wiring to the communication device 30. And a pull-up resistor for giving a specified level of the input signal to the output part of the communication device 30 in the connected state. I have.
[0077]
  Further, the communication device 30 receives the type inquiry 104 from the information terminal 1 and sends the type inquiry 106 of the communication device 30 to the response unit 33 and the type inquiry 104 from the information terminal 1 to the response unit 33. A wiring 72, a wiring 73 for sending the type response 106 from the response unit 33 to the information terminal 1, and a signal output unit for passing an input / output signal 107 such as a control signal or data between the information terminal 1 34 and a signal input unit (not shown).
[0078]
  Before the communication device 30 is connected to the information terminal 1, the type response 106 to the analysis unit 4 is not made, and the wiring 55 connected to the analysis unit 4 always notifies the H level by the pull-up resistor 551. Yes. Further, since the polarity of the signal line for signal input / output of the communication device 30 is unknown, the wiring 57 connected to the open collector type output buffer in the switching unit 7 and the wiring connected to the terminal 804 of the connector 58, the control unit 2 performs the switching control 108.
[0079]
  The control unit 2 issues an analysis instruction 103 via the handling bus 53 by periodic polling processing in order to confirm whether the communication device 30 is connected to the analysis unit 4, and the analysis unit 4 The type inquiry 104 is performed via the wiring 54 by 103. When the communication device 30 is not connected, the analysis unit 4 cannot obtain the type response 106, and therefore the analysis unit 4 cannot report the status confirmation 105 within the waiting time T2. Thereby, the control part 2 recognizes automatically that the communication apparatus 30 is not connected.
[0080]
  When the communication device 30 is connected, the terminal 802 of the connector 8 of the information terminal 1 is connected to the terminal 312 of the connector 31 of the communication device 30, and the terminal 803 of the connector 8 of the information terminal 1 is connected to the terminal 313 of the connector 31 of the communication device 30. The connection type query 104 from the analysis unit 4 is transmitted to the response unit 33 via the wiring 72 of the communication device 30. The response unit 33 of the communication device 30 sends a type response 106 unique to the communication device 30 to the information terminal 1 via the wiring 73 in response to the type inquiry 104. In the information terminal 1, the type response 106 sent is transmitted to the analysis unit 4 via the wiring 55. When the analysis unit 4 receives the type response 106, the analysis unit 4 reports the result by the state confirmation 105 via the handling bus 53 from the control unit 2.
[0081]
  FIG. 25 shows a flowchart for determining the type of communication device. The control unit recognizes the presence / absence of the communication device and the type in the communication device confirmation process (6102) of the periodic timer interruption (6101). When the communication device confirmation (6001) is started, the control unit issues an analysis instruction (6002) to the analysis unit, and immediately starts (6003) a timer with a waiting time T2 necessary for state confirmation. Subsequently, a determination (6004) for waiting for the elapse of the waiting time T2 is executed. When the time T2 elapses, this loop is exited and the T2 timer is stopped (6005). Next, a status check is performed on the analysis unit (6006), and a report of a type response from the communication device is received. When the communication device is not connected, it is not possible to receive a report from the analysis unit. Therefore, in the next determination (6007), there is no status confirmation report, and in the next processing (6008), no communication device is connected. And the process ends (6012).
[0082]
  If a communication device A that returns a type response A to the type inquiry is connected, the report from the analysis unit for the status check from the control unit is A, and there is no status check report in the next judgment (6007). However, in the next determination (6009), the status confirmation report A is obtained, and in the next processing (6010), the communication apparatus A is recognized as being connected, and an arbitrary type can be determined based on the type of processing response.
[0083]
  In FIG. 24, the control unit 2 recognizes the type of the connected communication device 30 based on the report obtained in the status confirmation 105, and controls the switching unit 7 to switch to match the characteristics of the signal input / output unit of the communication device 30. 108 is sent so that control signals and data can be exchanged between the information terminal 1 and the communication device 30.
[0084]
  In FIG. 24, only one system is described for passing control signals and data between the information terminal 1 and the communication device. However, by having a plurality of switching controls, a plurality of control signals and data are provided. It is possible to realize an interface for passing. Further, when the communication device is connected to the information terminal 1 as in the first embodiment, when the communication device is provided with a notification unit that sends the connection of the communication device and the attribute of the communication device, the determination unit of the first embodiment is added to the information terminal 1. By providing, since the connection between the information terminal 1 and the communication device and the attribute of the communication device can be determined, the polling process by the analysis unit is unnecessary, and the control unit can immediately perform the type inquiry.
[0085]
  (Tenth embodiment)
  As shown in FIG. 26, in the signal automatic switching device of the tenth embodiment, the information terminal 1 includes a control unit 2 that controls a connection interface between the information terminal 1 and the communication device 30, and a type determination of the connected communication device 30. The inspection unit 9 that performs the inspection output 111 that assists, the wiring 59 that sends the inspection instruction 110 from the control unit 2 to the inspection unit 9, and the wiring that performs the inspection output 111 from the inspection unit 9 to the communication device 30 60, the analysis unit 4 for determining the type of the connected communication device 30, the wiring 54 for making a type inquiry 104 from the analysis unit 4 to the communication device 30, and the analysis unit 4 from the communication device 30 Wiring 55 for receiving the type response 106 for the inquiry, a handling bus 53 for performing the analysis instruction 103 and the status confirmation 105 from the control unit 2 to the analysis unit 4, the communication device 30, the control signal, The input buffer 5 and output buffer 6 for transferring data, and the control unit 2 determine connection characteristics based on the analysis result of the communication device 30, and the switching unit 7 that automatically switches between the input buffer 5 and the output buffer 6 by the switching control 108. And a wiring 58 for passing an input / output signal 107 such as a control signal and data between the communication device 30 and the switching unit 7, and a control signal and data from the switching unit 7 via the input buffer 6, A wiring 58 for sending to the control unit 2, a wiring 57 for sending control signals and data from the control unit 2 to the switching unit 7 via the open collector type output buffer 5, a communication device 30 and each wiring The connector 8 that accommodates the terminals for connecting the input terminal and the input unit is provided with an H level when nothing is connected to the input unit, and the input unit is provided with a specified level of the input signal when connected. And a each pull-up resistor of the order.
[0086]
  Further, the communication device 30 receives the type inquiry 104 and the test output 111 from the information terminal 1, and responds to the response unit 33 that performs the type response 106 of the communication device 30 and the type inquiry 104 from the information terminal 1. Wiring 72 for sending to the information terminal 1, wiring 74 for sending the test output 111 from the information terminal 1 to the response unit, wiring 73 for sending the type response 106 from the response unit 33 to the information terminal 1, and the information terminal 1 Are provided with a signal output unit 34 and a signal input unit (not shown) for exchanging control signals and input / output signals 107 such as data.
[0087]
  Before the communication device 30 is connected to the information terminal 1, the type response 106 to the analysis unit 4 is not made, and the wiring 55 connected to the analysis unit 4 always notifies the H level by the pull-up resistor 551. Yes. Further, since the polarity of the signal line for signal input / output of the communication device 30 is unknown, the wiring 57 connected to the open collector type output buffer in the switching unit 7 and the wiring connected to the terminal 804 of the connector 58, the control unit 2 performs the switching control 108.
[0088]
  When the control unit 2 confirms the connection of the communication device 30, the control unit 2 issues an inspection instruction 110 to the inspection unit 9 through the wiring 59, and L is output as an inspection output from the inspection unit 9 through the wiring 60. Further, in order to confirm whether or not the communication device 30 is connected to the analysis unit 4, an analysis instruction 103 is given via the handling bus 53 by periodic polling processing, and the analysis unit 4 performs wiring according to the analysis instruction 103. The type inquiry 104 is performed via 54. When the communication device 30 is not connected, the analysis unit 4 obtains H as the type response 106, and the control unit 2 automatically recognizes that the communication device 30 is not connected.
[0089]
  When the communication device 30 is connected, the terminal 802 of the connector 8 of the information terminal 1 is connected to the terminal 312 of the connector 31 of the communication device 30, and the terminal 803 of the connector 8 of the information terminal 1 is connected to the terminal 313 of the connector 31 of the communication device 30. The terminal 805 of the connector 8 of the information terminal 1 is connected to the terminal 315 of the connector 31 of the communication device 30, and the type inquiry 104 from the analysis unit 4 is sent from the inspection unit 9 via the wiring 72 of the communication device 30. The inspection output 111 is transmitted to the response unit 33 via the wiring 74 of the communication device 30. The communication device 30 has a unique response unit 33 for each type. If the inspection output 111 from the inspection unit 9 is set to L, the type response 106 for each type is added to the type inquiry 104 from the analysis unit 4. Reply.
[0090]
  FIG. 27 shows the communication device E, and FIG. 28 shows the communication device F. In the response unit 33 of the communication device E, when the inspection output 111 is fixed to L, the type inquiry 104 from the analysis unit is sent back to the analysis unit of the information terminal 1 as it is as a type response 106. Further, in the response unit 33 of the communication device F, when the inspection output 111 is fixed to L, the L level becomes the type response 106 regardless of the type inquiry 104 from the analysis unit and is sent to the analysis unit of the information terminal 1. Sent back.
[0091]
  In FIG. 26, the type response 106 sent from the information terminal 1 is transmitted to the analysis unit 4 via the wiring 55. When the analysis unit 4 receives the type response 106, the analysis unit 4 reports the result by the state confirmation 105 via the handling bus 53 from the control unit 2.
[0092]
  FIG. 29 shows a flowchart for determining the type of communication device. The control unit recognizes the presence / absence of the connection of the communication device and the type in the communication device confirmation process (7102) of the periodic timer interruption (7101). When the communication device confirmation (7001) is started, the control unit issues an inspection output L instruction (7002) to the inspection unit, issues an analysis instruction to the analysis unit (7003), and then continues to the analysis unit. The status is confirmed (7004), and a report of the type response is received from the communication device. When the communication device is not connected, since H is received as a status confirmation report from the analysis unit, the status determination is H in the next determination (7005), and no communication device is connected in the next processing (7006). recognize.
[0093]
  When the communication device F shown in FIG. 28 is connected, the response unit 33 of the communication device F responds to the type query 104 from the analysis unit when the test output 111 is fixed to L. The response from the analysis unit to the status confirmation from the control unit is L, and the status determination H is not determined in the next determination (7005), and the status confirmation report L is determined in the next determination (7007). In the next process (7008), the communication apparatus F is recognized as connected. When the communication device E is connected, in the response unit 33 of the communication device E, when the test output 111 is fixed to L, the type inquiry 104 from the analysis unit is directly used as the type response 106 to the information terminal. Since it is sent back to the first analysis unit, the report from the analysis unit with respect to the status confirmation from the control unit becomes “type inquiry”, and does not become the status confirmation H in the next judgment (7005), but in the next judgment (7007). It is not the status confirmation L, but in the next judgment (7009), the status confirmation type is inquired and the communication device E is recognized as connected. In this embodiment, an arbitrary type can be determined based on the type response type of the communication device.
[0094]
  In FIG. 26, the control unit 2 recognizes the type of the connected communication device 30 based on the report obtained in the state confirmation 105, and controls the switching unit 7 to switch to match the characteristics of the signal input / output unit of the communication device 30. 108 is sent so that control signals and data can be exchanged between the information terminal 1 and the communication device 30.
[0095]
  In FIG. 26, only one system is described for passing control signals and data between the information terminal 1 and the communication device. However, by having a plurality of switching controls, a plurality of control signals and data are provided. It is possible to realize an interface for passing. Further, when the communication device is connected to the information terminal 1 and includes a notification unit that transmits the connection of the communication device and the attribute of the communication device, the information terminal 1 includes the determination unit according to the first embodiment. Since the connection between the communication device and the attribute of the communication device can be determined, polling processing by the analysis unit is unnecessary, and the control unit can immediately inquire about the type.
[0096]
  (Eleventh embodiment)
  As shown in FIG. 30, the signal automatic switching device of the eleventh embodiment includes, in the information terminal 1, a control unit 2 that controls a connection interface between the information terminal 1 and the communication device 30, and a communication device connected to the control unit 2. The determination unit 3 that performs a report corresponding to the connection notification 102 from 30, the wiring 52 for the determination unit 3 to receive the connection notification 102 from the communication device 30, and the determination result 101 from the determination unit 3 to the control unit 2 An interrupt 51 for reporting, an inspection unit 9 that performs an inspection output 111 that assists the type determination of the connected communication device 30, and a wiring 59 that sends an inspection instruction 110 from the control unit 2 to the inspection unit 9. The wiring 60 for performing the inspection output 111 from the inspection unit 9 to the communication device 30, the wiring 62 for receiving the inspection input 113 from the communication device 30 in the inspection unit 9, and the inspection unit 9 to the control unit 2 Inspection report 1 2 for determining the connection characteristics based on the inspection results of the communication device 30 and the inspection report interrupt 61 for performing the operation 2, the input buffer 5 and the output buffer 6 for the control unit 2 to exchange control signals and data with the communication device 30 A switching unit 7 for automatically switching between the input buffer 5 and the output buffer 6 by the control 108; a wiring 58 for passing an input / output signal 107 such as a control signal or data between the communication device 30 and the switching unit 7; A wiring 58 for sending a control signal and data from the switching unit 7 to the control unit 2 via the input buffer 6 and a control signal and data from the control unit 2 via the open collector type output buffer 5 The wiring 57 for sending to the switching unit 7, the connector 8 accommodating the terminals for connecting each wiring to the communication device 30, and H level is given when nothing is connected to each input unit It is in a state of being connected and a respective pull-up resistor to provide a defined level of the input signal to the output unit of the communication device 30.
[0097]
  In addition, the communication device 30 receives the test output 111 from the information terminal 1 and sends the response unit 33 that responds to the test input 113 of the communication device 30 and the test output 111 from the information terminal 1 to the response unit 33. A signal for passing an input / output signal 107 such as a control signal or data between the wiring 74 for transmitting, the wiring 75 for sending the inspection input 113 from the response unit 33 to the information terminal 1, and the information terminal 1 An output unit 34 and a signal input unit (not shown) are provided.
[0098]
  Before the communication device 30 is connected to the information terminal 1, the polarity of the signal line for signal input / output of the communication device 30 is unknown, so that the wiring connected to the open collector type output buffer at the switching unit 7 57 and the control unit 2 performs the switching control 108 so that the wiring 58 connected to the terminal 804 of the connector is connected.
[0099]
  When the determination unit 3 confirms the connection of the communication device 30 by the same method as in the fourth embodiment, the control unit 2 issues an inspection instruction 110 to the inspection unit 9 through the wiring 59, and the inspection unit 9 passes through the wiring 60. L is output as the inspection output 111. The communication device 30 has a unique response unit 33 for each type, receives the test output 111 from the test unit 9, and returns a test input 113 for each type.
[0100]
  31 shows the communication device E, and FIG. 32 shows the communication device F. In the response unit 33 of the communication device E, even if the test output 111 changes to L, the response by the test input 113 does not change, and the test unit 9 determines that there is no state change with respect to the test output 111. The inspection report 112 recognizes the connection of the communication device 30. On the other hand, in the response unit 33 of the communication device F, when the inspection output 111 changes to L, a pulse is generated in the inspection input 113 due to capacitive coupling. This pulse is determined by the inspection unit 9 to have a state change with respect to the inspection output 111, and the connection of the communication device F is recognized by the inspection report 112 to the control unit 2.
[0101]
  FIG. 33 shows a flowchart for determining the type of communication device. When the determination unit confirms the connection of the communication device, the control unit starts a communication device confirmation process 8001. First, the control unit issues an inspection instruction to the inspection unit (8002). Thereby, the inspection unit outputs an inspection output L. Next, the inspection report is confirmed (8003), and an inspection input report is received from the communication device.
[0102]
  When the communication device E of FIG. 31 is connected, the communication device E checks input for the inspection output.
There is no change in the response, and it is determined that there is no change in the state confirmation (8004), and then the processing is performed with the communication device E connected (8005). When the communication device F of FIG. 32 is connected, the communication device F responds to the test output with a pulse-like test input, so that the next determination (8004) does not mean that there is no state check change. Next, in the process (8006), the communication apparatus F is connected and the process (8005) is performed. In either case, the test output is finally returned to H (8007), the process is terminated, and I / F adaptation (8008) is performed.
[0103]
  In FIG. 30, the control unit 2 recognizes the type of the connected communication device 30 based on the report obtained in the state confirmation 105, and controls the switching unit 7 to switch to match the characteristics of the signal input / output unit of the communication device 30. 108 is sent so that control signals and data can be exchanged between the information terminal 1 and the communication device 30.
[0104]
  In FIG. 30, only one system is described for passing control signals and data between the information terminal 1 and the communication device. However, by having a plurality of switching controls, a plurality of control signals and data are provided. It is possible to realize an interface for passing.
[0105]
  (Twelfth embodiment)
  As shown in FIG. 30, the signal automatic switching device according to the twelfth embodiment includes, in the information terminal 1, a control unit 2 that controls a connection interface between the information terminal 1 and the communication device 30, and a communication device connected to the control unit 2. The determination unit 3 that performs a report corresponding to the connection notification 102 from 30, the wiring 52 for the determination unit 3 to receive the connection notification 102 from the communication device 30, and the determination result 101 from the determination unit 3 to the control unit 2 An interrupt 51 for reporting, an inspection unit 9 that performs an inspection output 111 that assists the type determination of the connected communication device 30, and a wiring 59 that sends an inspection instruction 110 from the control unit 2 to the inspection unit 9. The wiring 60 for performing the inspection output 111 from the inspection unit 9 to the communication device 30, the wiring 62 for receiving the inspection input 113 from the communication device 30 in the inspection unit 9, and the inspection unit 9 to the control unit 2 Inspection report 1 2 for determining the connection characteristics based on the inspection results of the communication device 30 and the inspection report interrupt 61 for performing the operation 2, the input buffer 5 and the output buffer 6 for the control unit 2 to exchange control signals and data with the communication device 30 A switching unit 7 for automatically switching between the input buffer 5 and the output buffer 6 by the control 108; a wiring 58 for passing an input / output signal 107 such as a control signal or data between the communication device 30 and the switching unit 7; A wiring 58 for sending a control signal and data from the switching unit 7 to the control unit 2 via the input buffer 6 and a control signal and data from the control unit 2 via the open collector type output buffer 5 The wiring 57 for sending to the switching unit 7, the connector 8 accommodating the terminals for connecting each wiring to the communication device 30, and H level is given when nothing is connected to each input unit It is in a state of being connected and a respective pull-up resistor to provide a defined level of the input signal to the output unit of the communication device 30.
[0106]
  In addition, the communication device 30 receives the test output 111 from the information terminal 1 and sends the response unit 33 that responds to the test input 113 of the communication device 30 and the test output 111 from the information terminal 1 to the response unit 33. A signal for passing an input / output signal 107 such as a control signal or data between the wiring 74 for transmitting, the wiring 75 for sending the inspection input 113 from the response unit 33 to the information terminal 1, and the information terminal 1 An output unit 34 and a signal input unit (not shown) are provided.
[0107]
  Before the communication device 30 is connected to the information terminal 1, the polarity of the signal line for signal input / output of the communication device 30 is unknown, so that the wiring connected to the open collector type output buffer at the switching unit 7 57 and the control unit 2 performs the switching control 108 so that the wiring 58 connected to the terminal 804 of the connector is connected.
[0108]
  When the control unit 2 confirms the start of connection of the communication device 30 by the connection notification interruption in the determination unit 3, the control unit 2 issues an inspection instruction 110 to the inspection unit 9 through the wiring 59, and the inspection unit 9 outputs an inspection output through the wiring 60. L is output as 111. In the communication device 30, since the inspection output 111 is folded back to the inspection input 113, when L is transmitted as the inspection output 111, L is output as the inspection input 113, but a determination terminal is connected for each type of the communication device 30. After that, the terminal 316 to which the inspection input 113 is connected has a connector structure that causes a time lag until the terminal 316 is connected to the connector terminal of the information terminal 1, and the time lag can be changed for each communication device. ing.
[0109]
  FIG. 34 shows the communication device G, and FIG. In the response unit 33 of the communication device G, the determination unit of the information terminal 1 confirms the start of connection of the communication device G and outputs L to the test output 111, so that the connector connection progresses and the test is performed after the Tg time has elapsed. L is transmitted to the input 113. As a result, an inspection report interrupt for performing an inspection report from the inspection unit to the control unit is generated. In the response unit 33 of the communication device H, the determination unit of the information terminal 1 confirms the start of connection of the communication device H and outputs L to the test output 111, so that the connector connection progresses and the test is performed after Th time has elapsed. L is transmitted to the input 113. As a result, an inspection report interrupt for performing an inspection report from the inspection unit to the control unit is generated.
[0110]
  FIG. 36 is a flowchart for determining the type of communication device. The determination process is performed based on a time Tn value required for connector connection from the connection notification interrupt to the completion of the test input connection. When a communication device is connected to the information terminal 1, a connection notification interrupt is generated and a processing sequence (9001) is started. When the determination process is started, a connection notification interrupt prohibition process (9002) is executed to prevent multiple connection notification interrupts from occurring in time T1. Next, a process (9003) for initializing the timer value Tn is executed. Next, processing for permitting an inspection report interrupt (9004) is executed, and the process proceeds to determination (9005) for waiting for a time T1 necessary for connector connection. The inspection report interrupt process (9101) ends when the inspection report interrupt in the connection interrupt process is permitted (9004), the timer Tn is stopped (9102) when the inspection report interrupt occurs. (9103). When the waiting time of the time T1 required for connector connection in the connection interrupt processing ends, the inspection report interrupt prohibition processing (9006) is executed, and an illegal inspection report interrupt after the elapse of the time T1 required for connector connection has occurred. Prevent it from occurring. Next, from the timer value obtained by the inspection report interrupt, the process proceeds to the part for determining the attribute of the communication device (9007).
[0111]
  When the communication device G in FIG. 34 is connected, the control unit generates an inspection report interrupt after Tg time following the connection notification interrupt. Therefore, in the determination (9007), Tn = Tg and the next process (9008) is performed. Then, the determination process is finished with the communication device G as a connection. When the communication device H of FIG. 35 is connected, since the determination unit generates an inspection report interrupt after Th time after the connection notification interrupt, Tn is not Tg in determination (9007), and the next determination (9009) Tn = Th, and in the next process (9010), the communication apparatus H is connected and the determination process ends. In the case of this embodiment, an arbitrary type of attribute can be determined by setting a time lag until a terminal for performing inspection input of the communication device is connected.
[0112]
  When the determination process is completed, the connection notification is made to enable automatic determination when the next communication device is connected.
An interrupt permission process (9012) is performed, and all the processes for determining the attribute of the communication device are terminated and I / F adaptation (9013) is performed.
[0113]
  In FIG. 30, the control unit 2 recognizes the type of the connected communication device 30 based on the report obtained in the state confirmation 105, and controls the switching unit 7 to switch to match the characteristics of the signal input / output unit of the communication device 30. 108 is sent so that control signals and data can be exchanged between the information terminal 1 and the communication device 30.
[0114]
  In FIG. 30, only one system is described for passing control signals and data between the information terminal 1 and the communication device. However, by having a plurality of switching controls, a plurality of control signals and data are provided. It is possible to realize an interface for passing.
[0115]
  (Thirteenth embodiment)
  FIG. 43 is a structural conceptual diagram showing the structure of the automatic signal switching device of the present invention, and FIG. 37 shows an embodiment of the communication device detection process.
[0116]
  In a state where the communication device is not connected to the interface unit of the information terminal (10001), when the communication device is connected to the connector of the information terminal, an interrupt is generated from the determination unit due to a change in the signal of the notification wiring, The control unit notifies the inspection unit to activate the inspection output wiring signal (10002). Thereafter, the control unit waits for an interrupt notification due to a signal change of the inspection input wiring from the inspection unit, and starts the timer T1.
[0117]
  Here, when the communication device A at the speed A is connected, the communication device A activates the test output wiring from the information terminal and thereby activates the signal of the test input wiring at the response unit. Since the control unit has a control function, the inspection unit notifies the control unit by an interrupt according to a signal change of the inspection input wiring, the control unit detects that the communication device A is connected, and the timer T1. Is stopped, and the communication apparatus A is initialized (10004).
[0118]
  In addition, when the communication device B at the speed B is connected, the communication device B outputs an inspection output from the information terminal.
Since the response line does not have a signal line control function for activating the signal of the test input wiring by activating the test wiring, the signal of the test input wiring does not change. Similarly, when the communication apparatus A in the power OFF state is connected, the signal of the inspection input wiring does not change. If the control unit does not generate an interruption due to a change in the signal of the test input wiring even after a certain time T1 has elapsed, the control unit determines that the timer T1 has timed out, and the communication device connected to the connector is the communication device B or It is determined that the communication apparatus A is in a power-off state (10003).
[0119]
  By carrying out the above processing procedure,The communication device detection processing of the automatic signal switching device is realized.
[0120]
  (Fourteenth Embodiment) FIG. 43 is a structural conceptual diagram showing the structure of an automatic signal switching device according to the present invention, and FIG. 37 shows an embodiment of a communication device detection process.
[0121]
  In the communication device indeterminate state (10003) in which it is determined that the connected communication device is the communication device B or the communication device A in the power-off state, an interrupt notification waiting due to a signal change in the inspection input wiring is awaited. While the timer T1 is stopped, the control unit monitors an interrupt notification due to a signal change of the inspection input wiring.
[0122]
  Here, when the communication apparatus A changes from the power supply OFF to the ON state, the response unit of the communication apparatus activates the signal of the inspection input wiring, so that the control is performed by the interrupt notification due to the signal change of the inspection input wiring. The unit detects that the communication device A is connected, and performs initialization processing of the communication device A (10004). When the initialization process procedure fails, a communication device recognition failure notification is issued and the process is terminated (10005).
[0123]
  If the initialization processing procedure is successful, the control unit switches to the communication device A operation mode, notifies the switching unit, and switches each input / output to the mode of the communication device A (10007). Thereafter, when there is a call request from the application, call procedure processing is performed and a call is made at speed A (10010).
[0124]
  Further, in the communication device indeterminate state (10003), when there is a call request from an application, the control unit switches to the communication device B operation mode and notifies the switching unit of each input / output mode of the communication device B. (10006). Then, a call processing procedure is tried at speed B, and if successful, a normal call is realized (10008).
[0125]
  However, if it fails, it can be determined that the power of the communication terminal is OFF, and a communication device recognition failure notification is made (10009).
[0126]
  By performing the above processing procedure, the communication device detection processing of the automatic signal switching device of claim 12 is realized.
[0127]
  (No.12Example)
  FIG. 43 is a structural conceptual diagram showing the structure of the automatic signal switching device of the present invention, and FIG. 38 is an example of the communication device detection process.
[0128]
  When the communication device is not connected to the interface unit of the information terminal (10101), when the communication device is connected to the connector of the information terminal, an interrupt is generated from the determination unit due to a change in the notification wiring signal, and the control unit A transition is made to a communication device indeterminate state in which the communication device has not yet been identified (10102). When there is a call request from the application, the control unit notifies the inspection unit to activate the signal of the inspection output wiring (10103). Thereafter, the control unit waits for an interrupt notification due to a signal change of the inspection input wiring from the inspection unit, and starts the timer T1.
[0129]
  Here, when the communication device A at the speed A is connected, the communication device A activates the test output wiring from the information terminal and thereby activates the signal of the test input wiring at the response unit. Since the control unit has a control function, the inspection unit notifies the control unit by an interrupt according to a signal change of the inspection input wiring, the control unit detects that the communication device A is connected, and the timer T1. The communication device A is initialized (10104). If the initialization process procedure fails, a communication device recognition failure notification is issued and the process ends (10105).
[0130]
  If the initialization processing procedure is successful, the control unit switches to the communication device A operation mode, notifies the switching unit, and switches each input / output to the mode of the communication device A (10107). After that, when there is a call request from the application, call procedure processing is performed to make a call at speed A (10110).
[0131]
  Further, when the communication device B of the speed B is connected, the communication device B activates the test output wiring from the information terminal to activate the signal of the test input wiring at the response unit. Since no function is provided, the signal of the inspection input wiring does not change. Similarly, when the communication apparatus A in the power OFF state is connected, the signal of the inspection input wiring does not change. If the control unit does not generate an interruption due to a change in the signal of the test input wiring even after a certain time T1 has elapsed, the control unit determines that the timer T1 has timed out, and the communication device connected to the connector is the communication device B or It is determined that the communication device A is in a power-off state, and the communication device B is switched to the operation mode, and the input / output is switched to the communication device B mode by notifying the switching unit (10106). Then, a call processing procedure is tried at speed B, and if successful, a normal call is realized (10108). However, if it fails, it can be determined that the power of the communication terminal is OFF, and a communication device recognition failure notification is made (10109). By carrying out the above processing procedure,The communication device detection processing of the automatic signal switching device is realized.
[0132]
  (Sixteenth embodiment)
  FIG. 43 is a structural conceptual diagram showing the structure of the automatic signal switching device of the present invention, and FIG. 39 shows an embodiment of the communication device detection process.
[0133]
  In a state where the communication device is not connected to the interface unit of the information terminal (10201), when the communication device is connected to the connector of the information terminal, an interrupt is generated from the determination unit due to a change in the notification wiring signal, and the control unit A transition is made to a communication device indeterminate state in which a communication device has not yet been identified (10202). When there is a call request from the application, first, the control unit tries the call processing procedure at the communication speed A to the inspection unit (10203). When the call processing procedure is successful, the control unit switches to the communication device A operation mode, notifies the switch unit to switch each input / output to the mode of the communication device A (10205), and makes a call at the speed A. Realize (10212). If the calling process at the communication speed A fails, the control unit next tries the calling process procedure at a different communication speed B to the inspection unit (10204). When the calling process procedure is successful, the control unit switches to the communication device B operation mode, notifies the switching unit to switch each input / output to the mode of the communication device B (10207), and makes a call at the speed B. Realize (10211). If unsuccessful, the call processing procedure is tried at different communication speeds N (10206).
[0134]
  When the call processing procedure is successful, the control unit switches to the communication device N operation mode, and the switching unit
The input / output is switched to the mode of the communication device N (10208), and the call at the speed N is realized (10210). At the time when calling processing at all communication speeds fails, notification of communication device recognition failure is made (10209). By carrying out the above processing procedure,The communication device detection processing of the automatic signal switching device is realized.
[0135]
  (17th embodiment)
  FIG. 43 is a structural conceptual diagram showing the structure of the automatic signal switching device of the present invention, and FIG. 40 shows an embodiment of the communication device detection processing.
[0136]
  In a state where the communication device is not connected to the interface unit of the information terminal (10301), when the communication device is connected to the connector of the information terminal, an interrupt is generated from the determination unit due to a change in the signal of the notification wiring, The control unit notifies the inspection unit to activate the inspection output wiring signal (10302). Thereafter, the control unit transitions to a communication device indeterminate state waiting for an interrupt notification due to a signal change of the test input wiring from the test unit and an interrupt notification when receiving data of the response wiring from the communication device of speed B (10303). . Here, when the communication device A at the speed A is received, the response unit of the communication device A activates the signal of the inspection input wiring. The control unit detects that the communication device A is connected, and performs the incoming call processing procedure of the communication device A (10305).
[0137]
  If the incoming call management procedure fails, the control unit again transitions to the communication device indeterminate state (10303). If the incoming call processing procedure is successful, the control unit switches to the operation mode of the communication device A and The input / output is switched to the mode of the communication apparatus A (10307), and the incoming call at the speed A is realized (10309). When the communication device B having the speed B receives an incoming call, the response unit of the communication device B transmits data indicating the incoming call at the speed B to the response wiring. By receiving the data, the control unit is notified of the interruption, the control unit detects that the communication device B is connected, and executes the incoming call processing procedure of the communication device B (10304). When the control unit identifies the data indicating the incoming call received from the response wiring and the incoming call management procedure fails, the control unit transitions again to the communication device indeterminate state (10303), and the incoming call processing procedure is If successful, the control unit switches to the operation mode of the communication device B, notifies the switching unit to switch each input / output to the mode of the communication device B (10306), and realizes an incoming call at the speed B (10308). ). By carrying out the above processing procedure,The communication device detection processing of the automatic signal switching device is realized.
[0138]
  (Eighteenth embodiment)
  FIG. 43 is a structural conceptual diagram showing the structure of the automatic signal switching device of the present invention, and FIG. 41 shows an embodiment of the communication device detection process.
[0139]
  In a state where the communication device is not connected to the interface unit of the information terminal (10401), when the communication device is connected to the connector of the information terminal, an interrupt is generated from the determination unit due to a change in the signal of the notification wiring, The control unit notifies the inspection unit to activate the signal of the inspection output wiring (10402). Thereafter, the control unit transits to a communication device indeterminate state waiting for an interrupt notification due to a signal change of the test input wiring from the test unit and an interrupt notification at the time of receiving data of the response wiring from the communication device of speed B (10403). .
[0140]
  Here, when the communication device A at the speed A is received, the response unit of the communication device A activates the signal of the inspection input wiring. The control unit detects that the communication device A is connected, and performs the incoming call processing procedure of the communication device A (10405). If the incoming call management procedure fails, the control unit transitions to the communication device indeterminate state again (10403). If the incoming call processing procedure is successful, the control unit switches to the operation mode of the communication device A and The input / output is switched to the mode of the communication apparatus A (10408), and the incoming call at the speed A is realized (10410). Further, when an incoming call is made to the communication device B at the speed B, the response unit of the communication apparatus B transmits data indicating the incoming call at the speed B to the response wiring, so that the inspection unit can perform a specific process determined in advance. Only when data on the response wiring is received, the control unit is notified of an interrupt, the control unit detects that the communication device B is connected, and executes the incoming call processing procedure of the communication device B (10404).
[0141]
  If the incoming call management procedure fails, the control unit clears the reception data of the response wiring, resets the state (10406), and the control unit transitions again to the communication device indeterminate state (10403). When the procedure is successful, the control unit switches to the operation mode of the communication device B, notifies the switching unit to switch each input / output to the mode of the communication device B (10407), and realizes the incoming call at the speed B. (10408).
[0142]
  By carrying out the above processing procedure,The communication device detection processing of the automatic signal switching device is realized.
[0143]
  (Nineteenth embodiment)
  FIG. 43 is a structural conceptual diagram showing the structure of the automatic signal switching device of the present invention, and FIG. 42 shows an embodiment of the communication device detection process.
[0144]
  In a state where the communication device is not connected to the interface unit of the information terminal (10501), when the communication device is connected to the connector of the information terminal, an interrupt is generated from the determination unit due to a change in the signal of the notification wiring, The control unit sets a pattern for detecting that data of a specific pattern is received from the response terminal in the inspection unit (10502), and notifies the inspection unit to activate the signal of the inspection output wiring ( 10503). Thereafter, the control unit shifts to a communication device indeterminate state waiting for an interrupt notification due to a signal change of the inspection input wiring from the inspection unit and an interrupt notification at the time of data reception of the response wiring from the communication device of speed B (10504). .
[0145]
  Here, when the communication device A at the speed A is received, the response unit of the communication device A activates the signal of the inspection input wiring. The control unit detects that the communication device A is connected, and performs the incoming call processing procedure of the communication device A (10506). If the incoming call management procedure fails, the control unit transitions again to the communication device indeterminate state (10504), and if the incoming call processing procedure is successful, the control unit switches to the operation mode of the communication device A and switches. The communication device A is switched to the mode of the communication apparatus A (10509), and the incoming call at the speed A is realized (10511).
[0146]
  When the communication device B at the speed B is received, the response unit of the communication device B transmits data indicating the incoming call at the speed B to the response wiring, so that the inspection unit is set in advance by the control unit. Only when data of the response wiring of the pattern is received, the control unit is notified of an interrupt, the control unit detects that the communication device B is connected, and performs the incoming call processing procedure of the communication device B (10505). . If the incoming call procedure fails, the control unit resets the received data pattern setting of the response wiring of the inspection unit (10507), and the control unit transitions again to the communication device indeterminate state (10504). When the incoming call processing procedure is successful, the control unit switches to the operation mode of the communication device B, notifies the switching unit to switch each input / output to the mode of the communication device B (10508), and receives the incoming call at the speed B. Is realized (10510). By implementing the above processing procedure,19The communication device detection process of the automatic signal switching device is realized.
[0147]
【The invention's effect】
  BookAccording to the invention, in the connection of a communication device such as a modem, a mobile phone, a car phone, a second generation cordless phone, a CDMA phone, etc. provided with communication means, and an information terminal provided with means for processing data from the communication device, By detecting the pattern of the specific notification terminal accommodated in the connector of the interface unit, and simply connecting the communication device to the connector, the communication device is connected from the pattern and the type of interface of the connected communication device I / O method by providing a switching means that automatically switches between the input buffer and output buffer for control signals and data between communication devicesOrSignal powerRankThere is an effect that a plurality of types of communication devices having different interfaces can be realized on the same interface of the information terminal.
  Also, on the communication device side, there is a means for suppressing chattering in the portion connected to the specific notification terminal of the connector, or the pins connected to the specific notification terminal of the connector have different lengths for each communication device. In addition, by using different lengths from the pins connected to the other terminals of the connector, or by making the number of contact surfaces to the specific notification terminal of the connector different for each communication device, a plurality of types of communication devices Can be automatically recognized.
[0148]
  AlsoBookAccording to the invention, by providing an overcurrent protection circuit, an overcurrent flows through the information terminal even if the information terminal misidentifies the communication device and switches the interface when the switching means for determining the communication device fails. Is preventing.
[0149]
  AlsoBookAccording to the invention, chattering is eliminated and the recognition accuracy of the communication device is improved by providing a hysteresis characteristic to the determination circuit for signal change detection of a specific notification terminal of the connector.
[0151]
  AlsoClaim11According to the described invention,The interface unit can be switched by determining whether or not a capacitor connected to a specific notification terminal of the connector is provided on the communication device side.
[0152]
[Brief description of the drawings]
FIG. 1 shows a first embodiment of the present invention.InIt is a block diagram which shows the structure of the signal automatic switching apparatus in O.
FIG. 2 shows a first embodiment of the present invention.InIt is a block diagram of the determination part and notification part of the automatic signal switching apparatus in O.
FIG. 3 shows a first embodiment of the present invention.InIt is a block diagram of the determination part and notification part of the automatic signal switching apparatus in O.
FIG. 4 is a first embodiment of the present invention.InIt is a flowchart which shows operation | movement of the signal automatic switching apparatus in O.
FIG. 5 shows a first embodiment of the present invention.InIt is a block diagram of the determination part and notification part of the automatic signal switching apparatus in O.
FIG. 6 shows a first embodiment of the present invention.InIt is a block diagram of the determination part and notification part of the automatic signal switching apparatus in O.
FIG. 7 shows a first embodiment of the present invention.InIt is a flowchart which shows operation | movement of the signal automatic switching apparatus in O.
FIG. 8 is a second embodiment of the present invention.InIt is a block diagram which shows the structure of the signal automatic switching apparatus in O.
FIG. 9 shows a third embodiment of the present invention.InIt is a block diagram which shows the structure of the signal automatic switching apparatus in O.
FIG. 10 shows a fourth embodiment of the present invention.InIt is a block diagram which shows the structure of the signal automatic switching apparatus in O.
FIG. 11 shows a fourth embodiment of the present invention.InIt is a block diagram of the determination part and notification part of the automatic signal switching apparatus in O.
FIG. 12 shows a fourth embodiment of the present invention.InIt is a block diagram of the determination part and notification part of the automatic signal switching apparatus in O.
FIG. 13 shows a fourth embodiment of the present invention.InIt is a flowchart which shows operation | movement of the signal automatic switching apparatus in O.
FIG. 14 shows a fourth embodiment of the present invention.InIt is a block diagram of the determination part and notification part of the automatic signal switching apparatus in O.
FIG. 15 shows a fourth embodiment of the present invention.InIt is a block diagram of the determination part and notification part of the automatic signal switching apparatus in O.
FIG. 16 shows a fourth embodiment of the present invention.InIt is a flowchart which shows operation | movement of the signal automatic switching apparatus in O.
FIG. 17 is a fifth embodiment of the present invention.InIt is a block diagram which shows the structure of the signal automatic switching apparatus in O.
FIG. 18 is a sixth embodiment of the present invention.InIt is a block diagram which shows the structure of the signal automatic switching apparatus in O.
FIG. 19 shows a seventh embodiment of the present invention.InIt is a block diagram of the determination part and notification part of the automatic signal switching apparatus in O.
FIG. 20 shows a seventh embodiment of the present invention.InIt is a block diagram of the determination part and notification part of the automatic signal switching apparatus in O.
FIG. 21 shows an eighth embodiment of the present invention.InIt is a block diagram of the determination part and notification part of the automatic signal switching apparatus in O.
FIG. 22 shows an eighth embodiment of the present invention.InIt is a block diagram of the determination part and notification part of the automatic signal switching apparatus in O.
FIG. 23 shows an eighth embodiment of the present invention.InIt is a flowchart which shows operation | movement of the signal automatic switching apparatus in O.
FIG. 24 shows a ninth embodiment of the present invention.InIt is a block diagram which shows the structure of the signal automatic switching apparatus in O.
FIG. 25 shows a tenth embodiment of the present invention.InIt is a flowchart which shows operation | movement of the signal automatic switching apparatus in O.
FIG. 26 is a tenth embodiment of the present invention.InIt is a block diagram which shows the structure of the signal automatic switching apparatus in O.
FIG. 27 shows a tenth embodiment of the present invention.InIt is a block diagram of the signal for an analysis of the automatic signal switching apparatus and a response part.
FIG. 28 is a tenth embodiment of the present invention.InIt is a block diagram of the signal for an analysis of the automatic signal switching apparatus and a response part.
FIG. 29 is a tenth embodiment of the present invention.InIt is a flowchart which shows operation | movement of the signal automatic switching apparatus in O.
FIG. 30 shows an eleventh embodiment and a twelfth embodiment of the present invention.InIt is a block diagram which shows the structure of the signal automatic switching apparatus in O.
FIG. 31 shows an eleventh embodiment of the present invention.InIt is a block diagram of the signal for an analysis of the automatic signal switching apparatus and a response part.
FIG. 32 shows an eleventh embodiment of the present invention.InIt is a block diagram of the signal for an analysis of the automatic signal switching apparatus and a response part.
FIG. 33 shows an eleventh embodiment of the present invention.InIt is a flowchart which shows operation | movement of the signal automatic switching apparatus in O.
FIG. 34 is a twelfth embodiment of the present invention.InIt is a block diagram of the signal for an analysis of the automatic signal switching apparatus and a response part.
FIG. 35 shows a twelfth embodiment of the present invention.InIt is a block diagram of the signal for an analysis of the automatic signal switching apparatus and a response part.
FIG. 36 shows a twelfth embodiment of the present invention.InIt is a flowchart which shows operation | movement of the signal automatic switching apparatus in O.
FIG. 3713th embodimentand14th embodimentIt is explanatory drawing which shows the communication apparatus detection processing procedure of this signal automatic switching apparatus.
FIG. 3815th embodimentIt is explanatory drawing which shows the communication apparatus detection processing procedure of an automatic signal switching apparatus.
FIG. 39Of the 16th embodimentIt is explanatory drawing which shows the communication apparatus detection processing procedure of an automatic signal switching apparatus.
FIG. 40Of the 17th embodimentIt is explanatory drawing which shows the communication apparatus detection processing procedure of an automatic signal switching apparatus.
FIG. 41Of the 18th embodimentIt is explanatory drawing which shows the communication apparatus detection processing procedure of an automatic signal switching apparatus.
FIG. 42Of the nineteenth embodimentIt is explanatory drawing which shows the communication apparatus detection processing procedure of an automatic signal switching apparatus.
FIG. 43From the thirteenth embodiment to the nineteenth embodimentIt is a block diagram which shows the structure of a signal automatic switching apparatus.
[Explanation of symbols]
  1 Information terminal
  2 Control unit
  3 judgment part
  4 Analysis Department
  5 Input buffer
  6 Output buffer
  7 Switching part
  8 Connector (information terminal side)
  9 Inspection Department
  30 Communication device
  31 Connector (communication device side)
  32 Notification section
  33 Response part
  34 Signal output section
  35 Signal input section
  51 interrupts
  52 Notification wiring
  53 Handling Bus
  54 Inquiry wiring
  55 Response wiring
  56 Signal input wiring
  57 Signal output wiring
  58 Signal input / output wiring
  59 Wiring for inspection instructions
  60 Wiring for inspection output
  61 Inspection report interrupt
  62 Wiring for inspection input
  71 Communication device side notification wiring
  72 Communication device type inquiry wiring
  73 Communication device type response wiring
  74 Communication device side inspection output wiring
  75 Communication device side inspection input wiring
  101 Judgment result
  102 Connection notification
  103 Analysis instructions
  104 Type inquiry
  105 Check status
  106 Type response
  107 I / O signal
  108 Switching control
  109 Activation control
  110 Inspection instructions
  111 Inspection output
  112 Inspection report
  113 Inspection input
  311 Connector 31 first terminal
  312 2nd terminal of connector 31
  313 Terminal 3 of connector 31
  315 5th terminal of connector 31
  316 Connector 31 6th terminal
  521 Notification wiring pull-up resistor
  551 Response wiring pull-up resistor
  561 Signal input wiring pull-up resistor
  562 Overcurrent prevention
  621 Inspection input wiring pull-up resistor
  801 The first terminal of connector 8
  802 2nd terminal of connector 8
  803 Connector 8 third terminal
  804 4th terminal of connector 8
  805 Terminal 5 of connector 8
  806 Terminal 6 of connector 8

Claims (9)

Provided in an information terminal having means for processing data from a communication device for connection with a communication device such as a modem, a mobile phone, a car phone, a second generation cordless phone, a CDMA phone, etc. provided with a communication means In the automatic signal switching device,
A plurality of types of communication apparatuses having the input-output system or signal conductive position different interface, in order to realize on the same interface of the information terminal, and an interface section provided with a connector containing a specific notification terminal,
A communication device that is created so that the potential of the specific notification terminal changes in a predetermined pattern when connected to the connector is connected to the interface unit, and the communication device that reaches the specific notification terminal different patterns to detect, determine the interface of the communication device from the pattern to be detected, according to the determination result, saw including a switching means for switching input and output method or signal conductive position of the connector terminal,
The communication device is prepared with and without a means for suppressing the occurrence of chattering in the specific notification terminal when connected to the connector of the interface unit,
The automatic signal switching device , wherein the switching means detects whether or not chattering occurs in the specific notification terminal when the communication device is connected to the connector as the signal change . Provided in an information terminal having means for processing data from a communication device for connection with a communication device such as a modem, a mobile phone, a car phone, a second generation cordless phone, a CDMA phone, etc. provided with a communication means In the automatic signal switching device,
In order to realize a plurality of types of communication devices having interfaces with different input / output methods or signal potentials on the same interface of the information terminal, an interface unit including a connector that accommodates a specific notification terminal;
A communication device that is created so that the potential of the specific notification terminal changes in a predetermined pattern when connected to the connector is connected to the interface unit, and the communication device that reaches the specific notification terminal Detecting different patterns, discriminating the interface of the communication device from the pattern to be detected, and switching means for switching the input / output method or signal potential of the terminal of the connector according to the discrimination result,
The communication device has a pin connected to a specific notification terminal of the connector, different from a pin connected to the other terminal of the connector, and a pin having a different length for each communication device,
When the communication device is connected to the connector, the switching means is connected to the communication device due to a difference in time difference between a detection time of connection to another terminal and a detection time of connection to the specific notification terminal. signal automatic switching apparatus characterized by determining the. Provided in an information terminal provided with means for processing data from a communication device for connection to a communication device such as a modem, a mobile phone, a car phone, a second generation cordless phone, a CDMA phone or the like provided with a communication means. In the automatic signal switching device,
In order to realize a plurality of types of communication devices having interfaces with different input / output methods or signal potentials on the same interface of the information terminal, an interface unit including a connector that accommodates a specific notification terminal;
A communication device that is created so that the potential of the specific notification terminal changes in a predetermined pattern when connected to the connector is connected to the interface unit, and the communication device that reaches the specific notification terminal Detecting different patterns, discriminating the interface of the communication device from the pattern to be detected, and switching means for switching the input / output method or signal potential of the terminal of the connector according to the discrimination result,
The communication device has a different number of contact surfaces of the terminals connected to the specific notification terminal of the connector for each communication device,
The automatic signal switching device according to claim 1, wherein when the communication device is connected to the connector, the switching means discriminates the connected communication device according to a difference in the number of signal changes of the specific notification terminal. When the communication device erroneous connection to the interface unit, the signal automatic switching device according to any one of claims 1 to 3, characterized in that it comprises an overcurrent protection circuit for preventing Rukoto overcurrent flows . 5. The switch according to claim 1, wherein when the signal change of the specific notification terminal is detected, the switching unit notifies the processing unit of the information terminal that a communication device is connected. signal automatic switching device according to. The switching means is
Hardware for detecting a signal change of the specific notification terminal;
When it is detected by hardware that the communication device is connected to the interface unit, a notification corresponding to the signal change is received from the hardware, the communication device is determined based on the notification, and the communication device is connected. The information according to a communication apparatus is notified to an interface part, The input / output system of the terminal of the said connector, or the control means which switches a signal potential is provided, The control means as described in any one of Claims 1-4 characterized by the above-mentioned . Automatic signal switching device. The control means includes
When nothing is connected to the connector, the hardware of the switching means is activated so that it can operate by consuming current so that the signal change of the specific notification terminal can be detected. And the interface part is deactivated so as not to consume current,
7. The automatic signal switching device according to claim 6, wherein upon receiving a notification corresponding to a signal change of a specific notification terminal from the hardware, the hardware is deactivated and the interface unit is activated. . 7. The automatic signal switching apparatus according to claim 6, wherein the control means sets all the terminals of the connector to the input mode when nothing is connected to the connector . The switching means includes a hysteresis buffer circuit to prevent erroneous recognition of the communication device connected by chattering of the specific notification terminal when the communication device is connected to the connector of the interface unit. The automatic signal switching device according to any one of claims 1 to 3 .

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