JP3533135B2 - Wireless communication system - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio communication system, and more particularly to a radio communication system in which a four-wire radio is connected to information equipment. 2. Description of the Related Art Hitherto, a communication system has been used in which a modem is connected to an information device such as a personal computer, a computer terminal, or an electronic organizer via an RS232C interface for communication. Recently, wireless devices such as portable telephones have become widespread, and there has been a demand for connecting the wireless devices to information equipment instead of the above-mentioned modem to perform wireless communication. [0004] However, the above-mentioned radio equipment requires a minimum number of serial signals (RTS, CT).
There are widely provided four-wire radios having only S, TxD and RxD signals and exchanging information on insufficient signal lines (DTR, DSR and DCD signals) by character string communication using another serial. In the case of such a wireless device, the interface with the information device could not be matched and direct connection could not be made. That is, as a modem of a computer equipped with an operating system (hereinafter referred to as “OS”) of a conventional general information device having RS232C control, a minimum necessary serial signal (RTS, CTS, Tx) is used.
D and RxD signals) and lacking signal lines (DT
R, DSR, and DCD signals) are connected to a wireless device for exchanging information by character string communication using a different serial. In a general OS, an insufficient signal line is used for connection / disconnection of a line. There was a problem that can not be done. The present invention has been made in view of the above points, and has as its object to provide a wireless communication system in which a data communication is enabled by connecting a 4-wire radio to an information device. [0007] In order to achieve the above object, the present invention provides at least RTS, CTS, TxD, R
Has terminals for xD, DTR, DSR and DCD signals
An information device having an RS232C interface,
Has terminals for RTS, CTS, TxD and RxD signals
Serial interface and DTR, DS
A second serial input having terminals for R and DCD signals.
Wireless communication by connecting to a wireless device with an interface
A system, wherein the information device is a DTR, DSR or
And a third serial interface having terminals for DCD signals
And the DT of the third serial interface
R, DSR, and DCD signal information is stored in the RS232
C interface DTR, DSR and DCD signals
Mapping means for mapping to the radio signal,
RTS of the first interface of the device and R of the information device
Connect to CTS of S232C interface,
CTS of the first interface of the line machine and the CTS of the information equipment
Connect to RTS of RS232C interface,
RxD of first interface of wireless device and information device
Connected to TxD of RS232C interface of
TxD of a first interface of the wireless device and the information device
And RxD of RS232C interface of the device,
A signal line of a second interface of the radio and the information
Connects to the signal line of the third interface of the device
And the DT of the RS232C interface of the information device.
R and DS of RS232C interface of the information equipment
R and DC of the RS232C interface of the information device
D is connected. Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram of an embodiment of a wireless communication system according to the present invention. The information device 1 and the wireless device 2 are connected by two serial interfaces, serial A3 and serial B3.
4 are connected. The information device 1 is operated by an operating system 7 having a serial signal control driver 5 and a serial driver 6. The serial A3 is used for data transmission / reception in the same manner as a normal modem, and the serial B4 is used for a short signal line (DT).
R, DSR and DCD signals). On the information equipment 1 side, DTR, DSR and DCD signal information used in the serial B4 must be mapped to the signal line of the serial A3. As a method, the serial signal control driver 5 hooks a DTR signal request to the serial driver 6 and notifies the transceiver 2 via the serial B4 (see reference numeral 8). By receiving DCD signal information and controlling DCD signal of serial A3 (see reference numeral 9) (physical connection between DTR and DCD signal (see reference numeral 10)), DTR is accessed by accessing DTR.
CD signal can be controlled). Since the DSR signal is also a signal for monitoring the line connection like the DCD signal, the DTR and the DTR signal are always linked with the DCD signal.
Physically connect the SR signal (see reference numeral 11). In the present embodiment, data communication through the wireless device 2 is enabled as described above. Next, the embodiment will be described in more detail. FIG. 2 is a block diagram showing the internal structure of serial signal control driver 5 and serial driver 6 shown in FIG. In the present embodiment, the serial signal control driver 5 includes an event handler 21 for receiving an event on a signal line and a DT for controlling a change in a DTR signal.
R signal control thread 22, DCD signal control thread 23 for controlling change of DCD signal, and serial B transmission thread 24 for making a character string transmission request to serial B4
And serial B that extracts the received character string from serial B4
And a receiving thread 25. The serial driver 6 controls a signal control thread 27 for processing a signal line change request instructed by the application 26 or the serial signal control driver 5 according to each request source, and controls reception from the serial A3 and the serial B4. It has a reception thread 28 and a transmission thread 29 for controlling transmission to serial A3 and serial B4. The signal line connection of the serial A3 is shown in FIG.
, The DTR signal is connected back to the DSR and DCD signals, and the other signal lines are cross-connected to the other party (TxD → other party RxD, RxD → other party TxD, RTS →
Partner CTS, CTS → partner RTS). Next, the operation of this embodiment will be described. FIG. 3 is a diagram showing a dial connection disconnection sequence in the embodiment shown in FIG. FIG. 4 is a diagram showing a flowchart of processing in the DTR signal control thread 22 of the serial signal control driver 5 shown in FIG. FIG. 5 is a diagram showing a flowchart of a process in the DCD signal control thread 23 of the serial signal control driver 5 shown in FIG. FIG. 6 is a flowchart showing a process in the serial B receiving thread 25 of the serial signal control driver 5 shown in FIG. FIG. 7 shows the serial driver 6 shown in FIG.
14 is a diagram showing a flowchart of a process in a signal control thread 27 of FIG. First, the flow of processing for turning on the DTR signal will be described. When the application 26 issues a DTR ON request to the serial driver 6 (see reference numeral 31 in FIG. 3), the signal line control thread 27 waits for a signal line control request to be accepted (step (D in FIG. 7). -1)) is canceled, and it is confirmed that the request is a DTR signal change request (FIG. 7).
Step (D-2)) and further confirm that the request is from the application 26 (step (D-
3)), and notifies the DTR change event to the serial signal control driver 5 (step (D-4) in FIG. 7);
Wait for the end of the TR change event (step (D-
5)). When a DTR change event notification is made, the DTR signal control thread 22
Is passed to the DTR signal control thread 22
Waiting for a signal event (step (A-1) in FIG. 4) is released. Subsequently, it is confirmed that the request is a DTR ON (step (A-2) in FIG. 4), and an ER ON character string to be transmitted to the serial B4 is generated (step (A) in FIG. 4).
-3)). The created ERON character string is transmitted to the serial driver 6 via the serial B transmission thread 24, and is transmitted.
The transmission is performed by the serial driver 6 (see reference numeral 32 in FIG. 3). Wait for an OK character string to be transmitted from the wireless device as a response to the ER ON character string (FIG. 4).
Step (A-6)). When the OK character string is received from the wireless device 2 (see reference numeral 33 in FIG. 3), it is transferred to the serial B reception thread 25 of the serial signal control driver 5 via the reception thread 28 of the serial driver 6. The serial B receiving thread 25 determines the received character string (step (C-1) in FIG. 6) and sends a response notification (step (C-3) in FIG. 6). Waiting for a response from the DTR signal control thread 22 in response to the response notification (step (A-6) in FIG. 4)
Is released, and the signal control thread 2 of the serial driver 6 is released.
7 is notified of a DTR signal change event end (step (A-7) in FIG. 4). When the DTR signal change event end notification is issued, the signal control thread 27 is released from waiting for the end of the DTR signal change event (step (D-5) in FIG. 7), and the ER
The ON request processing is completed. The flow of processing for turning off the DTR signal (see reference numerals 36, 37, and 38 in FIG. 3) is the same, and a detailed description thereof will be omitted. Next, the flow of processing when the DCD signal ON is notified from the wireless device 2 will be described. The DC is transmitted from the radio 2 through the serial B4.
When the character string of D ON is transmitted (reference numeral 34 in FIG. 3).
), And passed to the serial B reception thread 25 of the serial signal control driver 5 via the reception thread 28 of the serial driver 6. The serial B receiving thread 25 determines the received character string (step (C-1) in FIG. 6) and performs DCD event notification (step (C-2) in FIG. 6). When the notification of the DCD event is made, the control is transferred to the DCD signal control thread 23 by the event handler 21 and the waiting of the DCD signal event of the DCD signal control thread 23 (step (B-1) in FIG. 5) is released. You. Subsequently, it is confirmed that the event is a DCD ON event (step (B-2) in FIG. 5), and the signal control thread 27 of the serial driver 6 sends a serial ADT
An RON request is made (step (B-3) in FIG. 5). The signal control thread 27 is a serial ADT
When the RON request is issued, the signal control thread 27 is released from waiting for reception of the signal line control request (step (D-1) in FIG. 7), and confirms that it is a DTR signal change request (step in FIG. 7). (D-2)), and further confirm that the request is from the serial signal control driver 5 (step in FIG. 7).
(D-3)), the DTR signal of the serial A3 is turned on (step (D-6) in FIG. 7). As described above, the DTR signal of the serial A3 is connected to the DCD and DSR signals.
3, the DCD and DSR of the serial driver 6 are turned on, an interrupt process due to a change in the signal line, which is an existing function of the serial driver 6, is operated, and it is possible to notify the application 26 that the line has been connected (reference numeral 35 in FIG. 3). See). Yet another purpose, DSR signal and DC
Interlocking of the D signal is also possible. The flow of processing for turning off the DCD signal (see reference numeral 39 in FIG. 3) is the same, and a detailed description is omitted here. In the above embodiment, the means for notifying an event is not particularly limited.
The present invention can be implemented as long as the function has a mechanism that can be handled as an event, such as an indow message, notification by an asynchronous command, or management by a timer event. As described above, according to the present invention,
It has only the necessary minimum serial signals (RTS, CTS, TX and RX signals) and lacks signal lines (DTR, DSR)
And a DCD signal) by character string communication using another serial, a wireless device is used in place of the conventional modem, and the application can be used with the same control as a normal conventional modem.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of an embodiment of a wireless communication system according to the present invention. FIG. 2 is a block diagram showing an internal structure of a serial signal control driver and a serial driver shown in FIG. 1; FIG. 3 is a diagram showing a dial connection disconnection sequence in the embodiment shown in FIG. 1; FIG. 4 is a diagram showing a DT of the serial signal control driver shown in FIG. 2;
It is a figure showing the flow chart of the processing in the R signal control thread. FIG. 5 shows a DC of the serial signal control driver shown in FIG. 2;
It is a figure showing the flow chart of the processing in the D signal control thread. 6 is a diagram illustrating a flowchart of a process in a serial B reception thread of the serial signal control driver illustrated in FIG. 2; 7 is a diagram showing a flowchart of a process in a signal control thread of the serial driver shown in FIG. 2; [Description of Signs] 1 Information equipment 2 Radio 3 Serial A 4 Serial B 5 Serial signal control driver 6 Serial driver 7 Operating system 21 Event handler 22 DTR signal control thread 23 DCD signal control thread 24 Serial B transmission thread 25 Serial B reception Thread 26 Application 27 Signal control thread 28 Receiving thread 29 Transmission thread

Continuation of front page (56) References JP-A-8-47047 (JP, A) JP-A-5-110718 (JP, A) JP-A-5-244092 (JP, A) JP-A-5-14587 (JP) JP-A-5-219261 (JP, A) JP-A-5-158590 (JP, A) Nojima and 10 others, PRODUCTS S HOWCASE, ASCII, Japan, ASCII, April 1, 1997 , Vol. 21, No. 4, p. 424-P. 441 Yutaka Takami, Special Feature All of PC-related Interface Standards, Interface, Japan, CQ Publishing Co., Ltd., March 24, 1998, Vol. 139-P. 140 (58) Field surveyed (Int.Cl. ⁷ , DB name) G06F 13/10-13/14 H04B ^7/ 24-7/26 G06F 13/00 G06F 13/36-13/38

Claims (1)

(57) [Claims] [Claim 1] At least RTS, CTS, TxD, R
Has terminals for xD, DTR, DSR and DCD signals
An information device having an RS232C interface,
Has terminals for RTS, CTS, TxD and RxD signals
Serial interface and DTR, DS
A second serial input having terminals for R and DCD signals.
Wireless communication by connecting to a wireless device with an interface
A system, wherein the information device is configured to transmit DTR, DSR, and DCD signals.
A third serial interface having a terminal;
3 serial interface DTR, DSR and D
The information of CD signal is sent to the RS232C interface
To DTR, DSR and DCD signals
And a mapping means, the information and RTS of first interfaces of said radio
Connect to CTS of RS232C interface of device
And the CTS of the first interface of the radio and the
Connects to RTS of RS232C interface of information equipment.
And the RxD of the first interface of the radio and
TxD of the RS232C interface of the information device
Connect, TxD of the first interface of the radio and
RxD of the RS232C interface of the information device and
And the signal line of the second interface of the radio and the information
Connects to the signal line of the third interface of the device
And, a DTR of RS232C interface of the information equipment
The DSR of the RS232C interface of the information device and
DCD of RS232C interface of the information equipment
Wireless communication system characterized in that it is connected to.