JP6819363B2 - Relay device and communication relay system - Google Patents

Description

The present invention relates to a relay device and a communication relay system .

Conventionally, there are roughly two methods for connecting a portable information terminal such as an HT (handy terminal) and a PC (Personal Computer) by a USB (Universal Serial Bus) communication method. The first method is a method of directly connecting the information terminal and the PC via the USB cable.

The second method is to connect the cradle as a stationary relay device on which the information terminal is set (mounted or mounted) to the PC in advance using a USB cable, and set the information terminal in the cradle. It is a method of connecting.

Since the information terminal is carried by the user, in the first method, the burden of connecting and disconnecting (connecting / disconnecting) the USB cable to the information terminal is large every time communication is performed. Therefore, when the information terminal is easily connected and disconnected, the second method is adopted.

When the second method is performed, the USB connection is made by bringing the USB terminal on the information terminal into contact with the USB terminal on the cradle. At this time, in order to make it easy to set the information terminal in the cradle, the contact between the USB terminals of each device may be weakened. Normally, the cradle has no function other than having a simple circuit such as level correction, and it is almost directly connected as a USB terminal. For this reason, when connecting via a cradle, the connection is often incomplete as compared with the case of direct cable connection, which may cause communication failure.

Therefore, there is known a system in which an information terminal having a USB terminal and a cradle are each provided with an infrared coupling portion, and whether or not the information terminal is attached to the cradle is confirmed by infrared communication by a pair of infrared coupling portions (Patent Documents). 1).

JP-A-2007-318595

However, in the configuration described in Patent Document 1, even if infrared communication is successfully performed, there is a possibility that an electrical connection failure between the USB terminal on the information terminal side and the USB terminal on the cradle side may occur. Furthermore, one set of USB terminals consists of five USB terminals (D +, D-, ID, VBUS, GND), and when the information terminal is halfway set in the cradle or the surface of the USB terminal is dirty. In some cases, there is a risk that a USB terminal that is electrically connected and a USB terminal that is not connected may occur.

An object of the present invention is to confirm that all communication terminals used for communication are connected in the connection between the information terminal and the relay device.

In order to solve the above problem, a relay apparatus according to the present invention, the information terminal a relay apparatus for relaying communication between the external device and the information terminal in a state that is set, the in the information terminal The first plurality of communication terminals of a predetermined wired communication method that are in contact with the two plurality of communication terminals and the set state in which the information terminal is not set in the relay device are set. particular response as a response signal a first signal that is input from the information terminal to one signal input terminal of said first plurality of communication terminals, the first of the of the plurality of communication terminals A response means output to all the first communication terminals other than the signal input terminal and a second signal input from the information terminal to the relay device in response to the response signal output by the response means are detected. When the information terminal is used, the communication control means for initiating communication between the information terminal and the external device is provided.
Further, the communication relay system according to the present invention is a communication relay system in which the relay device relays communication between the external device and the information terminal when the information terminal is set in the relay device, and the relay is the relay system. The device is set from the first plurality of communication terminals of a predetermined wired communication system that are in contact with the second plurality of communication terminals in the information terminal and the non-set state in which the information terminal is not set in the relay device. The first signal input from the information terminal to one of the first plurality of communication terminals according to the set state is used as a response signal, and the first signal is used as a response signal. All of the multiple communication terminals other than the signal input terminal
When a response means output to the communication terminal 1 and a second signal input from the information terminal to the relay device in response to the response signal output by the response means are detected, the information terminal and the information terminal The information terminal includes a communication control means for initiating communication with the external device, and the information terminal is other than the communication terminal to which the first signal is output among the second plurality of communication terminals. The second signal is output when it is detected that the signal has been input to all the second communication terminals.

According to the present invention, in the connection between the information terminal and the relay device, it can be confirmed that all the communication terminals used for communication are connected.

It is a block diagram which shows the communication relay system of embodiment of this invention. It is a block diagram which shows the functional structure of an information terminal. It is a flowchart which shows the cradle side USB connection processing. It is a flowchart which shows the terminal side USB connection processing.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. The present invention is not limited to the illustrated examples.

First, the apparatus configuration of the present embodiment will be described with reference to FIGS. 1 and 2. FIG. 1 is a schematic view showing a communication relay system 1 of the present embodiment. FIG. 2 is a block diagram showing a functional configuration of the information terminal 10.

The communication relay system 1 of the present embodiment is a system that relays communication by connecting an information terminal 10 and a PC 30 as a communication destination thereof by a predetermined wired communication method. Here, an example in which USB is applied as a predetermined wired communication method will be described, but the present invention is not limited to this, and other wired communication methods may be used.

As shown in FIG. 1, the communication relay system 1 includes an information terminal 10, a cradle 20, and a PC 30 as an external device. The cradle 20 and the PC 30 are communicated and connected via the USB cable 31.

It is assumed that the information terminal 10 is a handy terminal used for managing products such as stores and warehouses. However, the information terminal 10 is not limited to the handy terminal, and may be another information terminal such as a smartphone, a tablet PC, a feature phone, a PDA (Personal Digital Assistant), a digital camera, a portable audio player, or an IC recorder. ..

The information terminal 10 has a USB terminal THT for USB communication as a second communication terminal, a terminal TA as a third communication terminal, and a fourth communication terminal as metal terminals exposed from the housing. It has a terminal TB and. The USB terminal THT has a USB terminal TD + as a signal output terminal and USB terminals TD-, TID, TVBUS, and TGND. The USB terminal TD + is a terminal for a signal line of USB data (D +). The USB terminal TD- is a terminal for a signal line of USB data (D-). The USB terminal TID is a terminal for a signal line of USB recognition information (ID). The USB terminal TVBUS is a terminal for a power line of a USB power supply voltage (VBUS). The USB terminal TGND is a terminal for a USB ground (GND) power line.

The terminal TA is a terminal to which a signal indicating that the information terminal 10 is set in the cradle 20 is input. The terminal TB is a terminal for outputting a signal indicating on / off of a mode for confirming the connection between the information terminal 10 and the PC 30 (mode A described later). As shown in FIG. 1, the USB terminals THT, terminals TA, and TB (the same applies to the USB terminal CHT, terminals CA, and CB) are located near the outside along the arrangement direction of each USB terminal of the USB terminal THT. , TB shall be placed.

The cradle 20 is a relay device in which the information terminal 10 is set so that the USB terminal between the information terminal 10 and the information terminal 10 is contacted without newly touching the connectors, and the USB communication between the information terminal 10 and the PC 30 is relayed. is there. The cradle 20 includes a circuit unit 21 as a response means, a set unit 22, a USB terminal CHT, and a USB terminal CHT for USB communication as a first communication terminal as a metal terminal exposed from the housing. It has a terminal CA as a fifth communication terminal, a terminal CB as a sixth communication terminal, and a USB terminal CPC.

The USB terminal CHT has a USB terminal CD + as a signal input terminal and USB terminals CD-, CID, CVBUS, and CGND. The USB terminal CD + is a terminal for a signal line of USB data (D +), and is electrically connected by contact with the USB terminal TD +. The USB terminal CD- is a terminal for a signal line of USB data (D-), and is electrically connected by contact with the USB terminal TD +. The USB terminal CID is a terminal for a signal line of USB recognition information (ID), and is electrically connected by contact with the USB terminal TD-. The USB terminal CVBUS is a terminal for a power supply line of a USB power supply voltage (VBUS), and is electrically connected by contact with the USB terminal TVBUS. The USB terminal CGND is a terminal for a USB ground (GND) power line, and is electrically connected by contact with the USB terminal TGND.

The terminal CA is a terminal for outputting a signal indicating that the information terminal 10 is set in the cradle 20, and is electrically connected by contact with the terminal TA. The terminal CB is a terminal into which a signal indicating ON / OFF of mode A for confirming the connection between the information terminal 10 and the PC 30 is input, and is electrically connected by contact with the terminal TB.

The circuit unit 21 is, for example, a circuit unit composed of circuit elements on a substrate. The circuit unit 21 has a function of outputting a positive signal having a positive signal polarity to the terminal CA. Further, the circuit unit 21 transfers the signal input from the information terminal 10 to the USB terminal CD + to all the signals other than the USB terminal CD + in the USB terminal CHT according to the state of the signal input from the information terminal 10 to the terminal CB. It has a function of outputting to a USB terminal (USB terminal CD-, CID, CVBUS, CGND) or connecting the USB terminal CHT and the USB terminal CPC. As described above, the circuit unit 21 has a circuit configuration for executing the cradle-side USB connection process described later for realizing the above functions.

The set unit 22 is a receiving unit in which the information terminal 10 is set. When the information terminal 10 is set, the USB terminals THT, terminals TA, and TB of the information terminal 10 are connected to the USB terminals CHT, terminals CA, and CB, respectively. Be touched.

The USB terminal CPC is a USB terminal for the connector of the USB cable 31 connected to the PC 30, and the terminals of the D +, D-, ID, VBUS, and GND lines are shown together.

The PC 30 is a stationary device of the USB wired communication destination of the information terminal 10. The device of the USB wired communication destination of the information terminal 10 is not limited to the PC, and may be another device such as a server.

As shown in FIG. 2, the information terminal 10 outputs a signal output means, a confirmation means, a connection means, a CPU (Central Processing Unit) 11 as a warning means, an operation unit 12, a RAM (Random Access Memory) 13, and an output. A display unit 14, a storage unit 15, a wireless communication unit 16, a wired communication unit 17, and a scanner unit 18 as means are provided. Each part of the information terminal 10 is connected via a bus 19.

The CPU 11 controls each part of the information terminal 10. The CPU 11 reads a designated program among the system programs and application programs stored in the storage unit 15 and expands them in the RAM 13, and executes various processes in cooperation with the program.

The operation unit 12 has key input units for various keys such as character input keys and function keys, receives operation input from the user, and outputs the operation information to the CPU 11. The operation unit 12 may include a touch panel provided on the display panel of the display unit 14.

The RAM 13 is a volatile memory and forms a work area for temporarily storing various data and programs. The display unit 14 is composed of an LCD (Liquid Crystal Display), an EL (Electro Luminescent) display, and the like, and performs various displays according to display information instructed by the CPU 11.

The storage unit 15 is a storage unit that is composed of a flash memory, EEPROM (Electrically Erasable Programmable Read-Only Memory), and the like, and can write and read data and programs. The terminal-side USB connection program 151, which will be described later, is stored in the storage unit 15.

The wireless communication unit 16 directly wirelessly communicates with the communication destination device by a wireless communication method such as Bluetooth (registered trademark), wireless LAN (Local Area Network), wireless WAN (Wide Area Network) (LTE (Long Term Evolution), etc.). It is a circuit unit that communicates with a communication destination device by communicating or wirelessly communicating with a repeater (access point, base station) on a communication network.

The wired communication unit 17 is a circuit unit that communicates with the PC 30 as a communication destination device via a physical line such as a cable or a cradle by a USB wired communication method. The wired communication unit 17 has a USB terminal THT, terminals TA, and TB, and performs wired communication with the cradle 20 as an external device via the USB terminals THT, terminals TA, and TB. The CPU 11 has a function of reading signals input from the cradle 20 to the terminals CA, USB terminal CD-, CID, CVBUS, and CGND by the wired communication unit 17. Further, the CPU 11 has a function of generating a positive signal or a negative signal having a negative signal polarity by the wired communication unit 17 and outputting the signal to the terminal CA and the USB terminal CD +.

The scanner unit 18 includes a laser scanner, an imager, etc., reads a one-dimensional bar code, a two-dimensional code, or the like attached to a product or the like, and outputs the read data to the CPU 11.

The information terminal 10 as an HT also includes a power supply unit such as a secondary battery, and also includes an image pickup unit, a communication unit (microphone, speaker, etc.), a position detection unit, an acceleration sensor, an RFID (Radio Frequency IDentifier), and the like. It may be configured to include a short-range wireless communication unit or the like.

Next, the operation of the communication relay system 1 will be described with reference to FIGS. 3 and 4. FIG. 3 is a flowchart showing the USB connection process on the cradle side. FIG. 4 is a flowchart showing the terminal-side USB connection process.

The cradle-side USB connection process outputs the signal input from the information terminal 10 to the information terminal 10 for connection confirmation, or the USB terminal CHT and USB for the communication connection of the information terminal 10, depending on the state of the terminal CB. This is a process of electrically connecting to the terminal CPC.

The cradle-side USB connection process executed by the circuit unit 21 of the cradle 20 will be described with reference to FIG. For example, it triggers that an AC (Alternating Current) adapter (not shown) powered from a commercial power source is connected to the cradle 20 and turned on, or that the cradle 20 is powered by USB from the PC 30 via a USB cable 31. As a result, the power-supplied circuit unit 21 executes the cradle-side USB connection process.

First, the circuit unit 21 generates a positive signal and outputs it to the terminal CA (step S1). The positive signal in step S1 is a signal indicating that the information terminal 10 is set in the cradle 20 when viewed from the information terminal 10.

Then, the circuit unit 21 reads the state of the terminal CB and determines whether or not the signal polarity of the terminal CB is negative (step S2). The signal input from the information terminal 10 to the terminal CB is a signal indicating whether or not the mode A (the connection between the information terminal 10 and the cradle 20 is being confirmed). Here, modes A, B, and C are prepared as modes in the terminal side USB connection processing. Mode A is a mode for confirming the connection between the information terminal 10 and the cradle 20. Mode B is a mode in which the USB terminal THT of the information terminal 10 is connected to the USB communication module (cradle 20) for communication, and communication is performed between the information terminal 10 and the communication destination PC 30. Mode C is a mode in which the USB terminal THT of the information terminal 10 is not connected anywhere.

In step S2, when the signal input from the information terminal 10 to the terminal CB is a negative signal, or the signal is not input from the information terminal 10 to the terminal CB (the terminal TB is not electrically connected to the terminal CB). ), The signal polarity of the terminal CB becomes negative. When the signal input from the information terminal 10 to the terminal CB is a positive signal, the signal polarity of the terminal CB becomes positive.

When the signal polarity of the terminal CB is negative (step S2; YES), the circuit unit 21 sends the loopback signal from the information terminal 10 input to the USB terminal CD + to the USB terminal of the USB terminal CHT. Output to all USB terminals CD-, CID, CVBUS, and CGND other than CD + (step S3), and the process proceeds to step S2.

When the signal polarity of the terminal CB is positive (step S2; NO), the circuit unit 21 sets the USB terminals CD +, CD-, CID, CVBUS, and CGND of the USB terminal CHT to the D +, D-, of the USB terminal CPC, respectively. It is electrically connected to the USB terminals of the ID, VBUS, and GND (step S4), and the process proceeds to step S2.

Next, the terminal-side USB connection process executed by the CPU 11 of the information terminal 10 will be described with reference to FIG. In the terminal-side USB connection process, when the information terminal 10 and the PC 30 are communicated and connected via the cradle 20, the connection status of the USB terminals between the cradle 20 and the information terminal 10 is confirmed, and all the USB terminals are electrically connected. If this is the case, it is a process of connecting the information terminal 10 and the PC 30 for USB communication.

In the information terminal 10, for example, triggered by the power being turned on, the CPU 11 executes the terminal-side USB connection process in cooperation with the terminal-side USB connection program 151 that is read from the storage unit 15 and appropriately expanded into the RAM 13. To do. The user appropriately sets the information terminal 10 in the cradle 20.

First, as an initial setting, the CPU 11 sets the mode in the terminal-side USB connection processing to mode A, generates a negative signal for loopback to the cradle 20 by the wired communication unit 17, outputs it to the USB terminal TD +, and wires it. The communication unit 17 generates a negative signal and outputs it to the terminal TB (step S11). Corresponding to the negative signal output to the USB terminal TD + in step S11, the negative signal is input to the USB terminal CD + that contacts the USB terminal TD +. Further, in response to the negative signal output to the terminal TB in step S11, a negative signal is input to the terminal CB in contact with the terminal TB, which is YES in step S2 of FIG. 3 and the process proceeds to step S3.

Then, the CPU 11 reads the state of the terminal TA and determines whether or not the signal polarity of the terminal TA is positive (step S12). When the signal input from the cradle 20 to the terminal TA is a positive signal corresponding to step S1 of FIG. 3, the signal polarity of the terminal TA becomes positive. When no signal is input from the cradle 20 to the terminal TA, or when the terminal CA is not electrically connected to the terminal TA, the signal polarity of the terminal TA becomes negative.

When the signal polarity of the terminal TA is negative (step S12; NO), the process proceeds to step S12. When the signal polarity of the terminal TA is positive (step S12; YES), the CPU 11 waits for 100 [ms] (step S13). Hereinafter, the standby process as in step S13 is performed in order to prevent the terminal of the signal output destination from becoming unstable. Further, the waiting time is not limited to 100 [ms].

Then, the CPU 11 reads the states of all the USB terminals TD-, TID, TVBUS, and TGND among the USB terminals THT other than the USB terminal TD +, and all the signal polarities of the USB terminals TD-, TID, TVBUS, and TGND are negative. It is determined whether or not it is (step S14). Since a negative signal is output to the USB terminal TD + in step S11, when the USB terminals TD-, TID, TVBUS, TGND and the USB terminals CD-, CID, CVBUS, CGND are electrically connected, respectively. Corresponding to step S3 of FIG. 3, a negative signal is input to the USB terminals TD-, TID, TVBUS, and TGND, and the signal polarity becomes negative.

When at least one signal polarity of the USB terminals TD-, TID, TVBUS, and TGND is positive (step S14; NO), whether or not the CPU 11 has passed 1 [s] as a comparison time from the first execution of step S15. Is determined (step S15). The comparison time in step S15 and the like is not limited to 1 [s]. If 1 [s] has not elapsed (step S15; NO), the process proceeds to step S14.

When 1 [s] has elapsed (step S15; YES), the CPU 11 generates warning information indicating that all the USB terminals of the information terminal 10 and the cradle 20 are not in contact with each other and displays it on the display unit 14 (step S15). S16). For example, the user visually observes the displayed warning information, wipes the dirt on the USB terminals THT and CHT as necessary, resets the information terminal 10 to the cradle 20, and resets the information terminal 10 via the operation unit 12. Enter the response information of.

Then, the CPU 11 determines whether or not there is an input of response information indicating that the resetting has been performed by the user via the operation unit 12 (step S17). If no response information is input (step S17; NO), the process proceeds to step S17. If there is input of response information (step S17; YES), the process proceeds to step S11.

When all the signal polarities of the USB terminals TD-, TID, TVBUS, and TGND are negative (step S14; YES), the CPU 11 generates a positive signal by the wired communication unit 17 and outputs it to the USB terminal TD + (step S18). ). Corresponding to the positive signal output to the USB terminal TD + in step S18, the positive signal is input to the USB terminal CD + that contacts the USB terminal TD +. Then, the CPU 11 waits for 100 [ms] (step S19).

Then, the CPU 11 reads the states of all the USB terminals TD-, TID, TVBUS, and TGND among the USB terminals THT other than the USB terminal TD +, and all the signal polarities of the USB terminals TD-, TID, TVBUS, and TGND are positive. It is determined whether or not it is (step S20). Since a positive signal is output to the USB terminal TD + in step S18, when the USB terminals TD-, TID, TVBUS, TGND and the USB terminals CD-, CID, CVBUS, CGND are electrically connected to each other, Corresponding to step S3 of FIG. 3, a positive signal is input to the USB terminals TD-, TID, TVBUS, and TGND, and the signal polarity becomes positive.

When at least one signal polarity of the USB terminals TD-, TID, TVBUS, and TGND is in a negative state (step S20; NO), has the CPU 11 passed 1 [s] as a comparison time from the first execution of step S20? Whether or not it is determined (step S21). If 1 [s] has not elapsed (step S21; NO), the process proceeds to step S20.

When all the signal polarities of the USB terminals TD-, TID, TVBUS, and TGND are positive (step S20; YES), the CPU 11 generates a negative signal by the wired communication unit 17 and outputs it to the USB terminal TD + (step S22). ). Steps S23 to S25 are the same as steps SS13 to S15.

When all the signal polarities of the USB terminals TD-, TID, TVBUS, and TGND are negative (step S24; YES), the CPU 11 sets the mode in the terminal-side USB connection processing to mode C (step S26). Then, the CPU 11 waits for 100 [ms] (step S27). Then, the CPU 11 generates a positive signal by the wired communication unit 17 and outputs it to the terminal TB (step S28). Corresponding to the output of the positive signal to the terminal TB in step S28, the positive signal is input to the terminal CB in contact with the terminal TB, becomes NO in step S2 of FIG. 3, and proceeds to step S4.

Then, the CPU 11 waits for 100 [ms] (step S29). Then, the CPU 11 sets the mode in the terminal-side USB connection process to mode B (step S30). Then, the CPU 11 starts USB communication with the communication destination PC 30 via the USB terminal THT by the wired communication unit 17 (step S31), and ends the terminal-side USB connection process.

As described above, according to the present embodiment, the information terminal 10 includes a USB terminal THT that is brought into contact with the USB terminal CHT in order to communicate with the USB terminal CHT in the cradle 20 by the USB communication method. The information terminal 10 outputs a first signal (minus signal / plus signal) for loopback to the cradle 20 to the USB terminal TD + of one of the USB terminals THT, and the first signal is USB from the cradle 20. It is determined whether or not all the USB terminals (TD-, TID, TVBUS, TGND) other than the USB terminal TD + of the terminal THT have been input.

The cradle 20 includes a USB terminal CHT that is in contact with the USB terminal THT of the information terminal 10. The cradle 20 transmits the first signal input from the information terminal 10 to one USB terminal CD + of the USB terminal CHT to all USB terminals (CD-, CID, CVBUS) other than the USB terminal CD + of the USB terminal CHT. , CGND).

Therefore, in the connection between the information terminal and the cradle 20, it can be confirmed that all the USB terminals THT and CHT used for USB communication are connected. Therefore, it is possible to recognize a state in which the information terminal is set halfway, such as entering the cradle 20 at an angle, and a part of the USB terminals THT and CHT does not touch, and USB connection and communication can be prevented. This makes it possible to prevent communication errors due to poor contact of some USB terminals.

Further, when the first signal is input to all the USB terminals other than the USB terminal TD +, the information terminal 10 starts USB communication with the PC 30 via the USB terminal THT and the cradle 20. Therefore, when the information terminal and the cradle 20 are securely connected by USB, USB communication between the information terminal 10 and the PC 30 can be started, and communication errors due to poor contact of some USB terminals can be prevented.

Further, the information terminal 10 outputs warning information to the display unit 14 when the first signal is not input from at least one USB terminal THT other than the USB terminal TD +. Therefore, when it is confirmed that the contact between the USB terminals THT and CHT is incomplete, the warning information can be displayed to prompt the user to reset the information terminal 10 to the cradle 20.

Further, the information terminal 10 includes a terminal TA that comes into contact with the terminal CA of the cradle 20. The information terminal 10 determines whether or not a second signal (plus signal) indicating that the information terminal 10 is set in the cradle 20 is input from the cradle 20 to the terminal TA, and the second signal is the terminal TA. When input to, the first signal is output to the USB terminal TD + of one of the USB terminals THT. The cradle 20 includes a terminal CA that comes into contact with the terminal TA of the information terminal 10. The cradle 20 outputs a second signal to the terminal CA. Therefore, when the information terminal 10 is set in the cradle 20, it is possible to confirm the USB connection between the information terminal 10 and the cradle 20, and it is possible to prevent unnecessary connection confirmation when the information terminal 10 is not set. ..

Further, the information terminal 10 includes a terminal TB that comes into contact with the terminal CB of the cradle 20. The information terminal 10 outputs a third signal (minus signal) indicating that the connection with the cradle 20 is being confirmed to the terminal TB, and outputs the first signal to the USB terminal TD + of one of the USB terminals THT. .. The information terminal 10 outputs a third signal (plus signal) indicating the completion of confirmation of the connection with the cradle 20 to the terminal TB, and starts USB communication with the PC 30. The cradle 20 includes a terminal CB that comes into contact with the terminal TB of the information terminal 10. The cradle 20 is an information terminal on one USB terminal CD + of the USB terminal CHT when a third signal (minus signal) indicating that the information terminal 10 is confirming the connection with the cradle 20 is input to the terminal CB. The first signal input from No. 10 is output to all USB terminals other than the USB terminal CD + in the USB terminal CHT. The cradle 20 connects the USB terminal CHT and the PC 30 (USB terminal CPC connected to) when a third signal (plus signal) indicating that the connection with the information terminal 10 has been confirmed is input to the terminal CB. To do. Therefore, when the connection confirmation between the information terminal 10 and the cradle 20 is completed, the USB connection and communication between the information terminal 10 and the PC 30 can be reliably performed.

Further, the information terminal 10 outputs the first signal by alternately switching the signal polarity to the minus and the signal polarity to the plus to the USB terminal TD + of one of the USB terminals THT twice. , It is determined whether or not all the three switched first signals are input from the cradle 20 to all the USB terminals other than the USB terminal TD + in the USB terminal THT. Therefore, the USB connection of the USB terminals THT and CHT between the information terminal 10 and the cradle 20 can be confirmed more reliably.

In the above description, an example in which the flash memory and EEPROM of the storage unit 15 are used as the computer-readable medium of the program according to the present invention has been disclosed, but the present invention is not limited to this example. As another computer-readable medium, a portable recording medium such as a flash memory or a CD-ROM can be applied. A carrier wave is also applied to the present invention as a medium for providing data of a program according to the present invention via a communication line.

The description in the above embodiment is an example of an information terminal, a communication relay system, a relay device, and a program according to the present invention, and is not limited thereto.

For example, in the above embodiment, the information terminal 10 is configured to output an arbitrary signal (minus signal / plus signal) for connection confirmation to the USB terminal TD +, but the present invention is not limited to this. The information terminal 10 may be configured to output an arbitrary signal for connection confirmation to the USB terminal TID, TD-, TVBUS, or TGND.

Further, in the above embodiment, in the information terminal 10, the polarity of the signal of the arbitrary signal (first signal) for connection confirmation is made negative and the polarity of the signal is made positive alternately twice. As a result, the process of outputting the first signal to the USB terminal TD + and the output signal are input to all USB terminals (TD-, TID, TVBUS, TGND) other than the USB terminal TD + in the USB terminal THT. The process of determining whether or not the signal is present is repeated three times, but the present invention is not limited to this. The first signal to be output to the USB terminal TD + may not be switched as a positive signal, and the first signal output process and the input signal discrimination process may be performed only once. Further, the signal polarity of the first signal output to the USB terminal TD + may be switched once or three times or more. The greater the number of times the signal polarity of the first signal is switched, the more accurately the USB connection between the information terminal 10 and the cradle 20 can be determined. On the contrary, as the number of times the signal polarity of the first signal is switched is smaller, the processing load and processing time of the information terminal 10 and the cradle 20 can be reduced.

Further, in the above embodiment, the USB terminals THT, terminals TA, and TB (the same applies to the USB terminal CHT, terminals CA, and CB) are located near the outside along the arrangement direction of each USB terminal of the USB terminal THT. The configuration is such that TA and TB are arranged, but the configuration is not limited to this. For example, with respect to the USB terminals THT, terminals TA, and TB (the same applies to the USB terminal CHT, terminals CA, and CB), positions that are not near the outside along the arrangement direction of each USB terminal of the USB terminal THT (for example, the housing of the information terminal 10). The terminals TA and TB may be arranged at the end of the body). Further, the terminals TA and TB may be arranged at an outer position along a direction different from the arrangement direction of each USB terminal of the USB terminal THT (for example, a direction of 0 to 90 degrees with respect to the arrangement direction).

Further, in the above embodiment, one type (D +, etc.) of one type of USB terminal (one of the metal terminals is exposed from the housing) is arranged in the USB terminals THT and CHT. It is not limited to. In the USB terminals THT and CHT, a plurality of USB terminals of one type may be arranged (a plurality of metal terminals are exposed from the housing).

Further, in the above embodiment, the warning information indicating that the USB terminals THT and CHT are not connected is displayed on the display unit 14 as the output means, but the present invention is not limited to this. For example, the output means may be an LED (Light Emitting Diode), a speaker, or the like, and the warning information may be provided by lighting the LED or outputting voice.

Further, in the above embodiment, the cradle 20 and the PC 30 are connected by a USB communication method which is a wired communication method between the information terminal 10 and the cradle 20, but the configuration is limited to this. It's not a thing. For example, the cradle 20 and the PC 30 may be connected by a wired communication method different from the communication method between the information terminal 10 and the cradle 20, or a wireless communication method.

In addition, it goes without saying that the detailed configuration and detailed operation of each component of the communication relay system 1 in the above embodiment can be appropriately changed without departing from the spirit of the present invention.

Although the embodiments of the present invention have been described, the scope of the present invention is not limited to the above-described embodiments, but includes the scope of the invention described in the claims and the equivalent scope thereof.
The inventions described in the claims originally attached to the application of this application are added below. The claims in the appendix are as specified in the claims originally attached to the application for this application.
[Additional Notes]
<Claim 1>
A second plurality of communication terminals contacted with the first plurality of communication terminals in order to communicate with the first plurality of communication terminals in the relay device for connecting to the external device by a predetermined wired communication method. When,
A signal output means for outputting a first signal for loopback to the relay device to one signal output terminal of the second plurality of communication terminals, and
A confirmation means for determining whether or not the first signal has been input from the relay device to all the second communication terminals other than the signal output terminal among the second plurality of communication terminals.
Information terminal equipped with.
<Claim 2>
When the first signal is input to all the second communication terminals other than the signal output terminal, communication with the external device via the second plurality of communication terminals and the relay device is started. The information terminal according to claim 1, further comprising a connecting means.
<Claim 3>
The information terminal according to claim 1 or 2, further comprising a warning means for outputting warning information to an output means when the first signal is not input from at least one second communication terminal other than the signal output terminal.
<Claim 4>
A third communication terminal that comes into contact with the communication terminal in the relay device is provided.
The signal output means determines whether or not a second signal indicating that the information terminal is set in the relay device is input from the relay device to the second communication terminal, and determines whether or not the second signal is input to the second communication terminal. According to any one of claims 1 to 3, when a signal is input to the third communication terminal, the first signal is output to one signal output terminal of the second plurality of communication terminals. The information terminal described.
<Claim 5>
A fourth communication terminal that comes into contact with the communication terminal in the relay device is provided.
The signal output means outputs a third signal indicating that the connection with the relay device is being confirmed to the fourth communication terminal, and outputs the third signal to one of the second plurality of communication terminals. Output the signal of 1
The information terminal according to claim 2, wherein the connection means outputs a third signal indicating the completion of confirmation of the connection with the relay device to the fourth communication terminal to start communication with the external device.
<Claim 6>
The signal output means switches between making the polarity of the signal negative and making the polarity of the signal positive at one of the second plurality of communication terminals at least once, and the first signal. Output,
In the confirmation means, whether the plurality of switched first signals are all input from the relay device to all the second communication terminals other than the signal output terminal among the second plurality of communication terminals. The information terminal according to any one of claims 1 to 5, which determines whether or not.
<Claim 7>
The information terminal according to any one of claims 1 to 6 and
The relay device that relays the communication between the external device and the information terminal is provided.
The relay device
The first plurality of communication terminals of the wired communication method that are in contact with the second plurality of communication terminals,
The first signal input from the information terminal to one signal input terminal of the first plurality of communication terminals is the first of all the first of the first plurality of communication terminals other than the signal input terminal. Response means to output to the communication terminal of
Communication relay system equipped with.
<Claim 8>
A relay device that relays communication between an external device and the information terminal by setting the information terminal.
The first plurality of communication terminals of a predetermined wired communication method that are in contact with the second plurality of communication terminals in the information terminal, and
The first signal input from the information terminal to one signal input terminal of the first plurality of communication terminals is the first of all the first of the first plurality of communication terminals other than the signal input terminal. Response means to output to the communication terminal of
A relay device to be equipped.
<Claim 9>
A fifth communication terminal that comes into contact with the communication terminal of the information terminal is provided.
The relay device according to claim 8, wherein the response means outputs a second signal indicating that the information terminal is set in the relay device to the fifth communication terminal.
<Claim 10>
A sixth communication terminal that comes into contact with the communication terminal of the information terminal is provided.
The response means is one of the first plurality of communication terminals when a third signal indicating that the information terminal is confirming the connection with the relay device is input to the sixth communication terminal. The first signal input from the information terminal to the signal input terminals is output to all the first communication terminals other than the signal input terminal among the first plurality of communication terminals, and the relay device is connected to the relay device. The relay device according to claim 8 or 9, which connects the first plurality of communication terminals and the external device when a third signal indicating that the connection has been confirmed is input to the sixth communication terminal. ..
<Claim 11>
Computer,
A second plurality of communication terminals that are in contact with the first plurality of communication terminals in order to communicate with the first plurality of communication terminals in the relay device for connecting to an external device by a predetermined wired communication method. A signal output means for outputting a first signal for loopback to the relay device to one of the signal output terminals.
A confirmation means for determining whether or not the first signal has been input from the relay device to all the second communication terminals other than the signal output terminal among the second plurality of communication terminals.
A program to function as.

1 Communication relay system 10 Information terminal 11 CPU
12 Operation unit 13 RAM
14 Display unit 15 Storage unit 16 Wireless communication unit 17 Wired communication unit 18 Scanner unit 19 Bus 20 Cradle 21 Circuit unit 22 Set unit THT, TD +, TD-, TID, TVBUS, TGND, CHT, CD +, CD-, CID, CVBUS , CGND, CPC USB terminal TA, TB, CA, CB terminal 30 PC
31 USB cable

Claims (4)

Information terminal a relay apparatus for relaying communication between the external device and the information terminal in a state that is set,
The first plurality of communication terminals of a predetermined wired communication method that are in contact with the second plurality of communication terminals in the information terminal, and
From the information terminal to the signal input terminal of one of the first plurality of communication terminals according to the change from the non-set state in which the information terminal is not set to the relay device to the set state in which the information terminal is set. as a response signal a first signal inputted, a response means for outputting all of the first communication terminal other than the signal input terminals of said first plurality of communication terminals,
When a second signal input from the information terminal to the relay device is detected in response to the response signal output by the response means, communication between the information terminal and the external device is started. Communication control means and
A relay device characterized by being provided with . In the information terminal, the response signal outputs the first signal of the second plurality of communication terminals.
The second signal is output when it is detected that the signal has been input to all the second communication terminals other than the powered communication terminal.
The relay device according to claim 1, wherein the relay device is characterized by the above. A third communication terminal for detecting that the non-set state has changed to the set state,
A fourth communication terminal for inputting the second signal output from the information terminal, and
With
The first plurality of communication terminals are arranged between the third communication terminal and the fourth communication terminal.
The relay device according to claim 1 or 2. A communication relay system in which the relay device relays communication between the external device and the information terminal when the information terminal is set in the relay device.
The relay device
The first plurality of communication terminals of a predetermined wired communication method that are in contact with the second plurality of communication terminals in the information terminal, and
From the information terminal to the signal input terminal of one of the first plurality of communication terminals according to the change from the non-set state in which the information terminal is not set in the relay device to the set state in which the information terminal is set. A response means that outputs an input first signal as a response signal to all the first communication terminals other than the signal input terminal among the first plurality of communication terminals.
When a second signal input from the information terminal to the relay device is detected in response to the response signal output by the response means, communication between the information terminal and the external device is started. Communication control means and
With
The information terminal is
When it is detected that the response signal is input to all the second communication terminals other than the communication terminal that outputs the first signal among the second plurality of communication terminals, the second signal is output. To do,
A communication relay system characterized by this.

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