JP2001142836A - Radio communication terminal and radio communication equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the number of machine types of radio communication equipment and further to reduce the number of parts such as connectors. SOLUTION: Concerning the radio communication terminal 11 provided with such as a function for inputting data or the like generated in data generating equipment 15 and 22 and transmitting the data to the outside by radio, a connector 13 based on one general data communication standard is provided as a connecting part to connect the data generating equipment 16 and 22 and in a data communication mode for inputting the data of the data generating equipment 15, a signal is transmitted on the basis of the said data communication standard but in a port mode for inputting the on/off signals of switches 20 and 21 inside the data generating equipment 22, a signal is transmitted while using a control line among plural transmission lines determined on the basis of the said data communication standard. Further, the data communication mode and the port mode can be switched over.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless communication terminal and a wireless communication device having a function of wirelessly transmitting data or the like generated by a data generator to the outside.

[0002]

2. Description of the Related Art As an example of this type of wireless communication terminal, P
There is an HS type data communication terminal. As shown in FIG. 3A, the data communication terminal 1 is configured to be connected to a personal computer 2 as a data generating device by, for example, the RS232C communication standard. It is configured such that data transmitted according to the RS232C communication standard can be input and wirelessly transmitted to the outside. In the case of this configuration, the data communication terminal 1
The connector 3 conforming to the 32C communication standard is provided.

As shown in FIG. 3B, when a monitoring device 4 having switches 4a and 4b is used as a data generating device, for example, the switches 4a and 4b in the monitoring device 4 are used. It is necessary to configure the data communication terminal 1 to input an on / off signal. In this configuration,
The data communication terminal 1 has a configuration in which two input ports 5a and 5b for inputting ON / OFF signals of the switches 4a and 4b are provided, that is, a configuration in which a connector 6 for the input ports 5a and 5b is provided. I have.

Therefore, the data communication terminal 1 must be prepared for connection to the personal computer 2 and for connection to the monitoring device 4. Alternatively, the data communication terminal 1 having both the connector 3 for connecting the personal computer 2 and the connector 6 for connecting the monitoring device 4 has to be prepared.

[0005]

However, a data communication terminal 1 dedicated to connecting to a personal computer 2 and a monitoring device 4
In the case of a configuration that prepares a dedicated connection, there is a problem that the number of models to be manufactured increases. PC 2
Connector 3 for connection and connector 5 for connection of monitoring device 4
Is provided in one data communication terminal 1, there is a problem that the number of components such as connectors increases.

It is an object of the present invention to provide a wireless communication terminal and a wireless communication device that can reduce the number of models and the number of components such as connectors.

[0007]

According to the first aspect of the present invention, a connector according to one general-purpose data communication standard is provided as a connection portion to which a data generating device is connected;
In the data communication mode for inputting data generated by the data generating device, a signal is transmitted according to the data communication standard,
In the port mode of inputting an on / off signal of a switch in the data generating device, the signal is transmitted using a control line among a plurality of transmission lines determined by the data communication standard, and further, The data communication mode and the port mode can be switched. According to this configuration, 1
Since one wireless communication terminal can be connected to both the data generating device and the personal computer, the number of models can be reduced. Then, since only one connector conforming to one general-purpose data communication standard is required, the number of components such as connectors can be reduced.

According to the second aspect of the present invention, switching between the data communication mode and the port mode is performed based on inputting a switching command using a signal line among a plurality of transmission lines determined by the data communication standard. Configured to run. This makes it possible to easily switch between the data communication mode and the port mode by connecting, for example, a personal computer to the wireless communication terminal.

According to the third aspect of the present invention, an RS232C communication standard is used as the data communication standard, and a D-Sub 9-pin connector or a D-Sub
Since the configuration is such that the 25-pin Sub connector is used, such a configuration can be easily and practically realized. Further, according to the invention of claim 4, it is possible to obtain substantially the same operation and effect as the invention of claim 1.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to FIGS. First, FIG.
The hardware configuration of a data communication terminal 11 of the PHS system, which is a wireless communication terminal, is substantially the same as the hardware configuration of the data communication terminal 1 (see FIG. 3) of the conventional configuration. A D-Sub 9-pin connector 13 is provided at the lower end of the left side surface in FIG. 1 of the case 12 of the data communication terminal 11 as a connector conforming to one general-purpose data communication standard, for example, the RS232C communication standard. At the upper end of the case 12, an antenna 14 for transmission and reception is provided.

Also, the D-Sub 9 of the data communication terminal 11
The pin connector 13 is configured such that a personal computer 15 as a data generating device can be connected thereto via a connection cable 16 conforming to the RS232C communication standard. The data communication terminal 11 is connected to one end of the connection cable 16.
A connector 17 that is detachably connected to the D-Sub 9-pin connector 13 is provided. The other end of the connection cable 16 is provided with a connector 19 that is detachably connected to an RS232C communication connector (for example, a D-Sub 9-pin connector) 18 of the personal computer 15.

In the case of this configuration, when the personal computer 15 is connected to the data communication terminal 11 via the connection cable 16, the data is generated by the personal computer 15 and transmitted from the personal computer 15 to the RS.
It is configured so that data transmitted according to the 232C communication standard can be input to the data communication terminal 11.
The mode in which data is input from the personal computer 15 to the data communication terminal 11 using the RS232C communication standard is the data communication mode.

Also, the D-Su of the data communication terminal 11
The b9-pin connector 13 is configured to be able to connect, for example, a monitoring device 22 having switches 20 and 21 therein as a data generating device. in this case,
The connection between the data communication terminal 11 and the monitoring device 22
A connection cable (not shown) conforming to the 2C communication standard may be used. At one end of the connection cable, a connector that is detachably connected to the D-Sub 9-pin connector 13 of the data communication terminal 11 is provided. At the other end of the connection cable, a connector (not shown) provided on the monitoring device 22 (for example, a D-Sub 9-pin connector)
Is provided with a connector that is detachably connected.

The connector of the monitoring device 22 is a D-Su
The connector is not limited to the b9 pin connector, but may be another general-purpose connector or a special dedicated connector. Further, the connection cable may be led out from the monitoring device 22 without a connector.

A control unit 23 for turning on and off the two switches 20 and 21 is provided inside the monitoring device 22.
Is provided. The control unit 23 has a function of controlling the operation of the monitoring device 22. Each of the switches 20 and 21 has a common contact c and two switching contacts a and b. The switching contact a is connected to the DC voltage terminal V,
The switching contact b is connected to the ground. Note that the number of switches provided in the monitoring device 22 is not limited to two, and one switch or three or more switches may be provided.

In this embodiment, it is possible to input ON / OFF signals of the switches 20 and 21 to the data communication terminal 11 in a state where the monitoring device 22 is connected to the data communication terminal 11 via a connection cable. It is configured as follows. The mode in which the on / off signals of the switches 20 and 21 are input to the data communication terminal 11 is the port mode. The port mode will be specifically described below.

First, the data communication mode described above (ie,
RS232C communication mode) is set,
The names (signal names) of signals passing through nine pins (corresponding to transmission lines) of the D-Sub 9-pin connector 13 of the data communication terminal 11, specifically, the pins having pin numbers 1 to 9 are R
The signal names conform to the S232C communication standard and are as shown in Table 1 below.

[0018]

[Table 1] As shown in Table 1, of the nine pins (corresponding to transmission lines) of the connector 13, each of the pins having pin numbers 1, 4 to 9 is a control line (a transmission line for transmitting a control signal for communication). ), And the pins with pin numbers 2 and 3 correspond to signal lines (transmission lines for transmitting data signals).

Now, when the port mode is set in the data communication terminal 11, among the nine pins, the pins with the pin numbers 1, 4 to 9 corresponding to the control lines become the input ports and the output ports. change. Specifically, as shown in the port column of Table 1, the pin with the pin number 1 is set as the output port, the pin with the pin number 4 is set as the input port, the pin with the pin number 6 is set as the output port, The pin with the pin number 7 is set as the input port, and the pins with the pin numbers 8 and 9 are set as the output ports.

Therefore, in the case of the present embodiment, the common contact c of the two switches 20 and 21 of the monitoring device 22 is connected to the D-Sub 9-pin connector 13 of the data communication terminal 11 with the pin number 4 and the pin number 4. 7 are connected to the respective pins. Thus, the pin having the pin number 4 and the pin having the pin number 7 are input ports for inputting the on / off signals of the switches 20 and 21, respectively.

In this embodiment, the four output ports (pins having pin numbers of 1, 6, 8, and 9) of the data communication terminal 11 are connected to the four input ports of the control unit 23 of the monitoring device 22. (Not shown). Thereby, the control unit 23 of the monitoring device 22 is configured to be able to input, for example, four control signals from the data communication terminal 11.

Even when the port mode is set, each of the pins with pin numbers 2 and 3 is treated as a signal line, that is, treated as the same signal line as in the data communication mode. Have been. At the same time, the pin with the pin number 5 is configured to be treated as a signal ground line (common return line), that is, to be treated as the same transmission line as in the data communication mode. Thereby, even when the port mode is set, for example, an AT command (control command) for a modem can be transmitted to the data communication terminal 11 through the signal line (pin number 3). It has become.

Here, a brief summary of the relationship between the data communication mode (RS232C mode) and the port mode for a plurality of transmission lines of the RS232C communication standard is as follows.
It is shown in Table 2 below.

[0024]

[Table 2] As shown in Table 2 above, the signal line among the transmission lines is treated as a signal line regardless of the communication mode, and the control line is
In the data communication mode, it is handled as a control line, and in the port mode, it is handled as an input port and an output port. In this case, the input control line is set as an input port, and the output control line is set as an output port.

Now, the data communication terminal 11 of the present embodiment
It is configured to be able to switch between the data communication mode and the port mode. Hereinafter, a method of switching the communication mode will be specifically described.

First, an operation for switching from the state in which the data communication mode is set to the port mode will be described. In this case, as shown in FIG.
To a personal computer 15 via a connection cable 16.
In this connection state, the personal computer 15 transmits to the data communication terminal 11 a switching command for switching to the port mode, for example, a dedicated switching command configured (defined) as a special AT command.

Then, the data communication terminal 11 is configured to switch the communication mode to the port mode when judging that the switching command has been input. By this mode switching, as shown in Tables 1 and 2, among the nine pins (that is, transmission lines) of the D-Sub 9-pin connector 13 of the data communication terminal 1, the pin number corresponding to the control line is changed. Each of pins 1, 4 to 9 is set to be changed to an input port and an output port. The setting is configured to be executed by a control unit (not shown) in the data communication terminal 11 (that is, the setting is performed by software by a control program).

Next, an operation for switching from the state in which the port mode is set to the data communication mode will be described. Also in this case, as shown in FIG.
1 is connected to a personal computer 15 via a connection cable 16. In this connection state, the personal computer 15 transmits to the data communication terminal 11 a switching command for switching to the data communication mode, for example, a dedicated switching command configured (defined) as a special one of AT commands.

Then, the data communication terminal 11 is configured to switch the communication mode to the data communication mode when judging that the switching command has been input. By this mode switching, as shown in Tables 1 and 2, nine pins (that is, transmission lines) of the D-Sub 9-pin connector 13 of the data communication terminal 1 are set so as to conform to the RS232C communication standard. You. The setting is also executed by the control unit in the data communication terminal 11.

In both the data communication mode and the port mode, the data communication terminal 11 always monitors (at a predetermined short cycle) whether or not the switching command is input. It is configured.

In the case of this embodiment, the data communication terminal 1
1, the control program for controlling the operation of the data communication terminal 11 is as follows:
This is different from the software configuration (control program) incorporated in the data communication terminal 1 (see FIG. 3) having the conventional configuration. The control specific to the control program of the data communication terminal 11 according to the present embodiment includes the above-described switching control between the data communication mode and the port mode, and the ON / OFF signal of the switches 20 and 21 from the monitoring device 22 in the case of the port mode. (Pin Nos. 4 and 7) and a control signal to the monitoring device 22 in the port mode via output ports (Pin Nos. 1, 6, 8, and 9) Control.

The control other than the control described above among the controls incorporated in the data communication terminal 11 of the present embodiment is the same as the control of the data communication terminal 1 shown in FIG. The control is almost the same as the control of the data communication terminal 1 shown in FIG.

In this embodiment having such a configuration, the data communication device 11 is connected to the personal computer 15, the monitoring device 22, and the like as a connection unit according to, for example, the RS232C communication standard (one general-purpose data communication standard). In a data communication mode in which a connector 13 is provided and data generated by the personal computer 15 is input, a signal is transmitted according to the RS232C communication standard, and a port mode in which an on / off signal of the switches 20 and 21 in the monitoring device 22 is input. In the case of R
The data communication device 1 transmits a signal using a control line among a plurality of transmission lines determined by the S232C communication standard.
1 and furthermore, the data communication mode and the port mode can be switched.

According to this configuration, one data communication terminal 11 can be connected to both the monitoring device 22 and the personal computer 15, so that the number of models can be reduced. Then, the data communication device 11 only needs to be provided with one connector that conforms to one general-purpose data communication standard, specifically, one D-Sub 9-pin connector 13, so that the number of components such as connectors can be reduced.

In the above embodiment, the switching between the data communication mode and the port mode is executed based on the input of a switching command using a signal line among a plurality of transmission lines determined by the RS232C communication standard. It was configured to be.
Thereby, for example, the personal computer 15
, It is possible to easily switch between the data communication mode and the port mode.

In the above embodiment, when the mode is switched from the data communication mode to the port mode, the transmission line (ie,
The signal lines among the nine pins of the connector 13) are set as signal lines, the input control lines are set as input ports, and the output control lines are set as output ports.
Thereby, even when the personal computer 15 is connected to the data communication terminal 11 in the port mode, it is possible to prevent the occurrence of a failure such as a collision of logic and a failure.
There is no need to add a circuit for selecting input and output in hardware.

It should be noted that a data processing device other than the personal computer 15 may be connected to the data communication terminal 11 to transmit a switching command to the data communication terminal 11. In this case, the data communication mode and the Port mode switching can be easily performed. Further, the data communication terminal 11 may be provided with a changeover switch, and the communication mode may be switched based on the changeover operation of the changeover switch.

In the above embodiment, the data communication terminal 1
1 as a connector 13 conforming to the RS232C communication standard
Although the 9-pin Sub connector 13 is provided, a 25-pin D-Sub connector may be provided instead. Further, a configuration may be adopted in which a round (DIN) connector, a flat cable connector, or the like is used.

Furthermore, in the above embodiment, the RS232C communication standard was used as a general-purpose data communication standard. However, the present invention is not limited to this, and RS499, USB, IEEE
You may comprise so that communication standards, such as E1394, may be used. Further, in the above embodiment, the present invention is applied to the PHS data communication terminal, but may be applied to another type of wireless communication terminal.

[Brief description of the drawings]

FIG. 1, showing an embodiment of the present invention, is a block diagram illustrating a data communication terminal, a monitoring device, and a personal computer.

FIG. 2 is a block diagram showing a state where a data communication terminal and a personal computer are connected.

FIG. 3 shows a conventional configuration, in which (a) is a block diagram showing a state where a data communication terminal and a personal computer are connected,
(B) is a block diagram showing a state where the data communication terminal and the monitoring device are connected.

[Explanation of symbols]

11 is a data communication terminal (wireless communication terminal), 13 is DS
ub 9-pin connector, 15 is a personal computer (data generation device), 16 is a connection cable, 17 is a connector, 18 is a connector, 19 is a connector, 20, 21 are switches, 22
Denotes a monitoring device (data generating device), and 23 denotes a control unit.

Claims (4)

[Claims] 1. A data generation device which is connected to a data generation device and receives data or the like generated by the data generation device and wirelessly transmits the data to an external device, or generates data or the like received wirelessly from an external device. In a wireless communication terminal having a function of outputting to a device, a connector in accordance with one general-purpose data communication standard is provided as a connection unit to which the data generating device is connected, and data generated by the data generating device is input. In the data communication mode, a signal is transmitted according to the data communication standard, and in a port mode in which an on / off signal of a switch in the data generating device is input, a plurality of transmission lines determined by the data communication standard are transmitted. Signal transmission using the internal control line, and is configured to be switchable between the data communication mode and the port mode. Wireless communication terminal. 2. The switching between the data communication mode and the port mode is performed based on input of a switching command using a signal line among a plurality of transmission lines determined by the data communication standard. The wireless communication terminal according to claim 1, wherein the wireless communication terminal has a configuration. 3. The data communication standard is RS232.
The wireless communication terminal according to claim 1 or 2, wherein a C-communication standard is used, and a D-Sub 9-pin connector or a D-Sub 25-pin connector is used as the connector. 4. A data generation device, which is connected to the data generation device and which receives data or the like generated by the data generation device and wirelessly transmits the data to the outside, or transmits data or the like wirelessly received from the outside to the data generation device. A wireless communication terminal having a function of outputting to the data generating device, wherein the wireless communication terminal includes, as a connection unit to which the data generating device is connected, a connector that conforms to one general-purpose data communication standard; In the data communication mode for inputting data generated in the device, a signal is transmitted according to the data communication standard, and in the port mode for inputting an on / off signal of a switch in the data generating device,
It is configured to transmit a signal using a control line among a plurality of transmission lines determined by the data communication standard, and further,
A wireless communication device configured to be switchable between the data communication mode and the port mode, and to be connectable to a personal computer or the like instead of the data generating device to the connector.