CN101902769B - Single board wireless debugging method and device - Google Patents

Abstract

The invention discloses single board wireless debugging method and device. In the single board wireless debugging method, a first wireless receiving and transmitting module on the debugging terminal side modulates first debugging information to a first wireless signal; the first wireless receiving and transmitting module sends the first wireless signal to a second wireless receiving and transmitting module on the single board side through a wireless signal transmitting window on the single board, and the first wireless receiving and transmitting module is connected with the wireless signal transmitting window; the second wireless receiving and transmitting module demodulates the first debugging information from the first wireless receiving and transmitting module, and then the single board can be debugged according to the first debugging information. The invention solves the problem that the single board debugging method is not beneficial to removing faults and has complicated operation and low efficiency in the prior art, and is convenient to locate faults on engineering site.

Description

The wireless debugging method of veneer and device

Technical field

The present invention relates to the communications field, in particular to a kind of wireless debugging method and device of veneer.

Background technology

In communication apparatus, the most frequently used interface of debugging veneer is RS-232 serial ports, conventionally makes contact pin form (can be understood as a socket), Serial Port Line need to be inserted on veneer and just can carry out serial ports connection.If veneer inserts in equipment machine frame, just (this is because the stopping of machine frame and panel can not directly to carry out the plug of Serial Port Line, can not stretch out one's hand into plug wire), after veneer need to being pulled out from machine frame, could plug Serial Port Line, this will cause two problems: first, if veneer emerged in operation fault, need veneer to pull out from machine frame and just can plug Serial Port Line and debug investigation problem, can cause veneer power-off like this, the information such as the state of veneer, configuration and register can be lost, and tending to destroy fault in-situ affects malfunction elimination.It is particularly unfavorable that this fault for engineering site is got rid of; The second, in prior art scheme, when switching serial ports connecting between different veneers, because needs plug veneer, must cause veneer to restart, and veneer is restarted and once at least will be spent a few minutes, efficiency is very low.And in laboratory debugging veneer process, it is very common switching serial ports connection between different veneers.

As from the foregoing, debugging single board method of the prior art is unfavorable for that malfunction elimination, complicated operation, efficiency are lower.

Summary of the invention

Main purpose of the present invention is to provide a kind of wireless debugging method and device of veneer, at least to solve debugging single board method of the prior art, is unfavorable for malfunction elimination, complicated operation, the problem that efficiency is lower.

According to an aspect of the present invention, provide a kind of wireless debugging method of veneer, it comprises: the first radio receiving transmitting module of debug terminal side is modulated to the first Debugging message in the first wireless signal; Above-mentioned the first radio receiving transmitting module sends to above-mentioned the first wireless signal by the transmission of wireless signals window on veneer the second radio receiving transmitting module of above-mentioned veneer side, and wherein, above-mentioned the first radio receiving transmitting module is connected with above-mentioned transmission of wireless signals window; Above-mentioned the second radio receiving transmitting module demodulates above-mentioned the first Debugging message from above-mentioned the first wireless signal, so that above-mentioned veneer is debugged according to above-mentioned first.

Further, the first radio receiving transmitting module of above-mentioned debug terminal side is modulated to the first wireless signal by the first Debugging message and comprises: above-mentioned the first radio receiving transmitting module receives the first serial signal that the serial ports of above-mentioned debug terminal sends; Above-mentioned the first radio receiving transmitting module converts above-mentioned first serial signal to above-mentioned the first wireless signal.

Further, above-mentioned the first radio receiving transmitting module comprises: the first infrarede emitting diode and the first Infrared Detectors, above-mentioned the second radio receiving transmitting module comprises: the second infrarede emitting diode and the second Infrared Detectors, wherein, above-mentioned the first radio receiving transmitting module converts above-mentioned first serial signal to above-mentioned the first wireless signal and comprises: above-mentioned the first infrarede emitting diode sends the first infrared signal according to above-mentioned first serial signal; Above-mentioned the second radio receiving transmitting module demodulates above-mentioned the first Debugging message and comprises from above-mentioned the first wireless signal: above-mentioned the second Infrared Detectors detects above-mentioned first serial signal from above-mentioned the first infrared signal.

Further, said method also comprises: above-mentioned the second radio receiving transmitting module is modulated to the second Debugging message in the second wireless signal; Above-mentioned the second radio receiving transmitting module sends to above-mentioned the first radio receiving transmitting module by above-mentioned transmission of wireless signals window by above-mentioned the second wireless signal; Above-mentioned the first radio receiving transmitting module demodulates above-mentioned the second Debugging message from above-mentioned the second wireless signal, so that above-mentioned debug terminal generates above-mentioned the first Debugging message according to above-mentioned the second Debugging message.

Further, above-mentioned the second radio receiving transmitting module is modulated to the second wireless signal by the second Debugging message and comprises: above-mentioned the second radio receiving transmitting module receives the second serial signal that the serial ports of above-mentioned veneer sends; Above-mentioned the second radio receiving transmitting module converts above-mentioned second serial signal to above-mentioned the second wireless signal.

Further, above-mentioned the first radio receiving transmitting module comprises: the first infrarede emitting diode and the first Infrared Detectors, above-mentioned the second radio receiving transmitting module comprises: the second infrarede emitting diode and the second Infrared Detectors, wherein, above-mentioned the second radio receiving transmitting module converts above-mentioned second serial signal to above-mentioned the second wireless signal and comprises: above-mentioned the second infrarede emitting diode sends the second infrared signal according to above-mentioned second serial signal; Above-mentioned the first radio receiving transmitting module demodulates above-mentioned the second Debugging message and comprises from above-mentioned the second wireless signal: the first Infrared Detectors detects above-mentioned second serial signal from above-mentioned the second infrared signal.

According to a further aspect in the invention, provide a kind of wireless debugging device of veneer, it comprises: the first radio receiving transmitting module, is positioned at debug terminal side, for the first Debugging message is modulated to the first wireless signal, the second radio receiving transmitting module, be arranged in veneer, by the transmission of wireless signals window on above-mentioned veneer, be connected with above-mentioned the first radio receiving transmitting module, the transmitting terminal of above-mentioned the second radio receiving transmitting module is corresponding with the receiving terminal of above-mentioned the first radio receiving transmitting module, the transmitting terminal of above-mentioned the first radio receiving transmitting module is corresponding with the receiving terminal of above-mentioned the second radio receiving transmitting module, wherein, the first wireless signal that above-mentioned the second radio receiving transmitting module sends by above-mentioned transmission of wireless signals window for receiving above-mentioned the first radio receiving transmitting module, and from above-mentioned the first wireless signal, demodulate above-mentioned the first Debugging message, so that above-mentioned veneer is debugged according to above-mentioned the first Debugging message.

Further, above-mentioned the second radio receiving transmitting module is also for the second Debugging message is modulated to the second wireless signal, and by above-mentioned transmission of wireless signals window, above-mentioned the second wireless signal sent to above-mentioned the first radio receiving transmitting module; Above-mentioned the first radio receiving transmitting module is also for demodulating above-mentioned the second Debugging message from above-mentioned the second wireless signal, so that above-mentioned debug terminal generates above-mentioned the first Debugging message according to above-mentioned the second Debugging message.

Further, said apparatus also comprises: the first serial of above-mentioned debug terminal, is connected with above-mentioned the first radio receiving transmitting module, for above-mentioned the first Debugging message is transferred to above-mentioned the first radio receiving transmitting module; The second serial of above-mentioned veneer, is connected with above-mentioned the second radio receiving transmitting module, for the second Debugging message being transferred to above-mentioned the second radio receiving transmitting module.

Further, above-mentioned the first radio receiving transmitting module comprises: the first infrarede emitting diode and the first Infrared Detectors, and above-mentioned the second radio receiving transmitting module comprises: the second infrarede emitting diode and the second Infrared Detectors; Or above-mentioned the first radio receiving transmitting module and above-mentioned the second radio receiving transmitting module are bluetooth transceiver module.

Further, above-mentioned the first wireless transmit/receive units is adsorbed on the transmission of wireless signals window of above-mentioned veneer, to form and to dock with above-mentioned the second wireless transmit/receive units.

In the present invention, debug terminal is connected without carrying out cable by serial ports and veneer, but transmits Debugging message and single board information by wireless signal, thereby in the situation that do not plug the veneer of equipment machine frame, also can debug veneer, like this, be convenient to engineering site location fault.In addition, due to the plug serial ports without repeating, also very convenient while making to switch debugging between different veneers, improved operating efficiency.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, forms the application's a part, and schematic description and description of the present invention is used for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is according to the schematic diagram of the debug system that comprises veneer and debug terminal of the embodiment of the present invention;

Fig. 2 is according to the flow chart of the wireless debugging method of the veneer of the embodiment of the present invention;

Fig. 3 is according to the preferred flow charts of the wireless debugging method of the veneer of the embodiment of the present invention;

Fig. 4 is according to the schematic diagram of the wireless debugging device of the veneer of the embodiment of the present invention;

Fig. 5 is according to a kind of preferred schematic diagram of the wireless debugging device of the veneer side of the embodiment of the present invention;

Fig. 6 is the preferred schematic diagram of another kind according to the wireless debugging device of the veneer side of the embodiment of the present invention;

Fig. 7 is according to the position view of the transmission of wireless signals window of the embodiment of the present invention;

Fig. 8 is according to a kind of preferred schematic diagram of the wireless debugging device of the debug terminal side of the embodiment of the present invention;

Fig. 9 is the preferred schematic diagram of another kind according to the wireless debugging device of the debug terminal side of the embodiment of the present invention.

Embodiment

Hereinafter with reference to accompanying drawing, also describe the present invention in detail in conjunction with the embodiments.It should be noted that, in the situation that not conflicting, embodiment and the feature in embodiment in the application can combine mutually.

Fig. 1 is according to the schematic diagram of the debug system that comprises veneer and debug terminal of the embodiment of the present invention.As shown in Figure 1, above-mentioned debug system comprises: debug terminal 102 and veneer 104 to be debugged, wherein, debug terminal 102 can be computer.The first transceiver module 106 of debug terminal 102 sides is connected with the second transceiver module 108 of veneer side 104, for transmitting debug signal.Below in conjunction with accompanying drawing, specifically describe the method for wireless debugging veneer.

Fig. 2 is that it comprises the steps: according to the flow chart of the wireless debugging method of the veneer of the embodiment of the present invention

S202, the first radio receiving transmitting module of debug terminal side is modulated to the first Debugging message in the first wireless signal;

S204, above-mentioned the first radio receiving transmitting module sends to above-mentioned the first wireless signal by the transmission of wireless signals window on veneer the second radio receiving transmitting module of above-mentioned veneer side, and wherein, above-mentioned the first radio receiving transmitting module is connected with above-mentioned transmission of wireless signals window;

S206, above-mentioned the second radio receiving transmitting module demodulates above-mentioned the first Debugging message from above-mentioned the first wireless signal, so that above-mentioned veneer is debugged according to above-mentioned first.

In the prior art, by serial ports cable, connect debug terminal and veneer, like this, in when debugging, veneer need to be pulled out from machine frame and just can be plugged Serial Port Line and debug investigation problem, thereby increase the complexity of debugging single board.In addition, in prior art scheme, when switching serial ports connecting between different veneers, because needs plug veneer, must cause veneer to restart, and veneer is restarted and once at least will be spent a few minutes, efficiency is very low.Yet in the present invention, debug terminal is connected without carrying out cable by serial ports and veneer, but transmit Debugging message and single board information by wireless signal, thereby in the situation that do not plug the veneer of equipment machine frame, also can debug veneer, like this, be convenient to engineering site location fault.In addition, due to the plug serial ports without repeating, also very convenient while making to switch debugging between different veneers, improved operating efficiency.

Preferably, the first radio receiving transmitting module of above-mentioned debug terminal side is modulated to the first wireless signal by the first Debugging message and comprises: above-mentioned the first radio receiving transmitting module receives the first serial signal that the serial ports of above-mentioned debug terminal sends; Above-mentioned the first radio receiving transmitting module converts above-mentioned first serial signal to above-mentioned the first wireless signal.

By above-mentioned mode, can utilize wireless signal transceiver module and serial ports to realize the wireless debugging of veneer, thereby reduce the complexity of debugging.

Preferably, above-mentioned the first radio receiving transmitting module comprises: the first infrarede emitting diode and the first Infrared Detectors, above-mentioned the second radio receiving transmitting module comprises: the second infrarede emitting diode and the second Infrared Detectors, wherein, above-mentioned the first radio receiving transmitting module converts above-mentioned first serial signal to above-mentioned the first wireless signal and comprises: above-mentioned the first infrarede emitting diode sends the first infrared signal according to above-mentioned first serial signal.Above-mentioned the second radio receiving transmitting module demodulates above-mentioned the first Debugging message and comprises from above-mentioned the first wireless signal: above-mentioned the second Infrared Detectors detects above-mentioned first serial signal from above-mentioned the first infrared signal.Due to infrarede emitting diode and Infrared Detectors implement fairly simple and convenient, thereby further simplified operation, reduced and realized cost.

Preferably, said method also comprises: above-mentioned the second radio receiving transmitting module is modulated to the second Debugging message in the second wireless signal; Above-mentioned the second radio receiving transmitting module sends to above-mentioned the first radio receiving transmitting module by above-mentioned transmission of wireless signals window by above-mentioned the second wireless signal; Above-mentioned the first radio receiving transmitting module demodulates above-mentioned the second Debugging message from above-mentioned the second wireless signal, so that above-mentioned debug terminal generates above-mentioned the first Debugging message according to above-mentioned the second Debugging message.Preferably, before the first radio receiving transmitting module of debug terminal side is modulated to the first wireless signal by the first Debugging message, above-mentioned the second radio receiving transmitting module sends to debug terminal by above-mentioned steps by the second Debugging message.

Preferably, the state information that above-mentioned the second Debugging message is veneer, above-mentioned the first Debugging message be debug terminal issue for debugging the debug command of veneer.

Preferably, above-mentioned the second radio receiving transmitting module is modulated to the second wireless signal by the second Debugging message and comprises: above-mentioned the second radio receiving transmitting module receives the second serial signal that the serial ports of above-mentioned veneer sends; Above-mentioned the second radio receiving transmitting module converts above-mentioned second serial signal to above-mentioned the second wireless signal.

Preferably, above-mentioned the first radio receiving transmitting module comprises: the first infrarede emitting diode and the first Infrared Detectors, above-mentioned the second radio receiving transmitting module comprises: the second infrarede emitting diode and the second Infrared Detectors, wherein, above-mentioned the second radio receiving transmitting module converts above-mentioned second serial signal to above-mentioned the second wireless signal and comprises: above-mentioned the second infrarede emitting diode sends the second infrared signal according to above-mentioned second serial signal.Above-mentioned the first radio receiving transmitting module demodulates above-mentioned the second Debugging message and comprises from above-mentioned the second wireless signal: the first Infrared Detectors detects above-mentioned second serial signal from above-mentioned the second infrared signal.

Below in conjunction with accompanying drawing, describe the specific embodiment of the wireless debugging of veneer in detail.

Fig. 3 is that it comprises according to the preferred flow charts of the wireless debugging method of the veneer of the embodiment of the present invention:

Step S302, debugged veneer (for example, the veneer one shown in Fig. 3) inserts in communication apparatus machine frame, energising operation.

Step S304, by module B (for example, debugging module on debug terminal shown in Fig. 8 and Fig. 9) wireless banjo fixing butt jointing (for example, wireless banjo fixing butt jointing shown in Fig. 8 and Fig. 9) alignment modules A (for example, modules A on veneer shown in Fig. 5 and Fig. 6) transmission of wireless signals window, then sticks to wireless banjo fixing butt jointing on panel of the board.The wireless signal transceiver that now wireless signal transceiver of modules A will alignment modules B, realizes wireless signal docking.

Step S306, is connected the serial ports joint of module B with the RS-232 serial ports of computer.

Step S308, the Serial Port Information of veneer is sent by the serial ports of modules A, and then process wireless signal transceiver is by the signal of telecommunication convert wireless signals of serial ports, and wireless signal sees through the wireless signal transceiver that transmission of wireless signals window sends module B to.The wireless signal transceiver of module B reverts to the signal of telecommunication by wireless signal, then gives computer, has so just completed the transmission of Serial Port Information from veneer to computer.

Then, the Serial Port Information of computer is by the wireless signal transceiver convert wireless signals of module B, and wireless signal sees through the wireless signal transceiver that transmission of wireless signals window sends modules A to.The wireless signal transceiver of B reverts to the signal of telecommunication by wireless signal, then gives the CPU of veneer, has completed like this transmission of Serial Port Information from computer to veneer.

Step S310, judges whether for example, to another piece veneer (, the veneer two shown in Fig. 3), to debug, and if desired, goes to step S312, otherwise, finish this debugging.

Step S312, need to take off the wireless banjo fixing butt jointing of module B from the panel of veneer one.

Step S314, adheres to the wireless banjo fixing butt jointing of module B on the transmission of wireless signals window of veneer two by the method in step S304;

Step S316, veneer two is set up serial ports with computer and is connected, and debugs.

The present invention also provides a kind of embodiment of wireless debugging device of veneer, and as shown in Figure 4, it comprises: the first radio receiving transmitting module 402, is positioned at debug terminal side, for the first Debugging message is modulated to the first wireless signal, the second radio receiving transmitting module 404, be arranged in veneer, by the transmission of wireless signals window on veneer, be connected with the first radio receiving transmitting module 402, the transmitting terminal of the second radio receiving transmitting module 404 is corresponding with the receiving terminal of the first radio receiving transmitting module 402, the transmitting terminal of the first radio receiving transmitting module 402 is corresponding with the receiving terminal of the second radio receiving transmitting module 404, wherein, the first wireless signal that the second radio receiving transmitting module 404 sends by transmission of wireless signals window for receiving the first radio receiving transmitting module 402, and from the first wireless signal, demodulate the first Debugging message, so that veneer is debugged according to the first Debugging message.

In an embodiment of the present invention, debug terminal is connected without carrying out cable by serial ports and veneer, but transmit Debugging message and single board information by wireless signal, thereby in the situation that do not plug the veneer of equipment machine frame, also can debug veneer, like this, be convenient to engineering site location fault.In addition, due to the plug serial ports without repeating, also very convenient while making to switch debugging between different veneers, improved operating efficiency.

Preferably, the second radio receiving transmitting module 404 is also for the second Debugging message is modulated to the second wireless signal, and by above-mentioned transmission of wireless signals window, above-mentioned the second wireless signal sent to above-mentioned the first radio receiving transmitting module 402; Above-mentioned the first radio receiving transmitting module 402 is also for demodulating above-mentioned the second Debugging message from above-mentioned the second wireless signal, so that above-mentioned debug terminal generates above-mentioned the first Debugging message according to above-mentioned the second Debugging message.Preferably, before the first radio receiving transmitting module 402 of debug terminal side is modulated to the first wireless signal by the first Debugging message, above-mentioned the second radio receiving transmitting module 404 sends to debug terminal by above-mentioned steps by the second Debugging message.

Preferably, the state information that above-mentioned the second Debugging message is veneer, above-mentioned the first Debugging message be debug terminal issue for debugging the debug command of veneer.

Preferably, the wireless debugging device of the veneer in the embodiment of the present invention also comprises: the first serial 406 of above-mentioned debug terminal, is connected with above-mentioned the first radio receiving transmitting module 402, for above-mentioned the first Debugging message being transferred to above-mentioned the first radio receiving transmitting module 402; The second serial 408 of above-mentioned veneer, is connected with the second radio receiving transmitting module, for the second Debugging message being transferred to the second radio receiving transmitting module 404.

Preferably, the first radio receiving transmitting module 402 comprises: the first infrarede emitting diode and the first Infrared Detectors, above-mentioned the second radio receiving transmitting module 404 comprises: the second infrarede emitting diode and the second Infrared Detectors.

In an embodiment of the present invention, the first radio receiving transmitting module 402 and the second radio receiving transmitting module 404 are infrarede emitting diode and Infrared Detectors, this is a kind of example, the present invention is not limited only to this, for example, the first radio receiving transmitting module 402 and the second radio receiving transmitting module 404 can also be bluetooth transceiver module.

Preferably, above-mentioned the first radio receiving transmitting module 402 is adsorbed on the transmission of wireless signals window of above-mentioned veneer, to form and to dock with above-mentioned the second radio receiving transmitting module 404.Preferably, the first radio receiving transmitting module 402 can be adsorbed on the transmission of wireless signals window of above-mentioned veneer by permanent magnet or vacuum cup.

Fig. 5 is according to a kind of preferred schematic diagram of the wireless debugging device of the veneer side of the embodiment of the present invention.In the embodiment shown in fig. 5, the wireless debugging device of veneer side comprises: modules A, it comprises: serial ports (RS-232 or UART), wireless signal transceiver, transmission of wireless signals window (position of wireless transmission window as shown in Figure 7).Modules A, for converting the serial port power signal of veneer (also referred to as, rs 232 serial interface signal) to wireless signal, is sent to equipment outside by transmission window by wireless signal.Meanwhile, modules A is also for converting the wireless serial signal receiving to the signal of telecommunication.The serial ports of modules A refers to and on veneer, is integrated in the UART serial ports on CPU, or by UART serial ports, added the RS-232 serial ports forming after RS-232 level transferring chip.The wireless signal transceiver of modules A refers to realizes circuit or the chip that serial port power signal and wireless signal turn mutually.The transmission of wireless signals window of modules A refers to a fenestella of opening on veneer metal decking, for wireless signal being sent to equipment outside, as shown in Figure 7.Modules A is directly made on debugged veneer, belongs to a part for debugged veneer.

As a kind of preferred embodiment, above-mentioned wireless signal transceiver can comprise: infrarede emitting diode and Infrared Detectors.As shown in Figure 6, in above-mentioned modules A, serial ports consists of the UART interface of veneer CPU, for not with three line serial ports (Tx/Rx/GND) of current control; Wireless signal transceiver is realized by infrarede emitting diode and Infrared Detectors.The Tx signal that infrarede emitting diode is realized serial ports converts infrared signal to.Infrared Detectors converts the infrared signal of Rx direction to the signal of telecommunication.For fear of between the infrarede emitting diode of modules A and Infrared Detectors from transmitting-receiving, can add a slice baffle plate at infrarede emitting diode and Infrared Detectors, also can be by adopting infrarede emitting diode and the Infrared Detectors of different wave length isolate.The panel of veneer is made by iron, opens the transmission of wireless signals window that 3mm * 8mm square hole sticks transparent membrane composition module A on panel.Infrarede emitting diode and Infrared Detectors are placed on transmission of wireless signals window place.

Fig. 8 is that it comprises according to a kind of preferred schematic diagram of the wireless debugging device of the debug terminal side of the embodiment of the present invention: the debugging module (module B) of debug terminal side (for example, computer side), comprise wireless banjo fixing butt jointing, cable, computer serial ports joint, as shown in Figure 8.Module B, for converting the RS-232 serial port power signal of computer to wireless signal, sends debugged veneer to by transmission window.Meanwhile, module B is also for converting the wireless serial signal receiving to the signal of telecommunication.The wireless banjo fixing butt jointing of module B, for docking with debugged veneer, comprises wireless signal transceiver, temporary fastening device.The wireless signal transceiver of wireless banjo fixing butt jointing refers to realizes circuit or the chip that serial port power signal and wireless signal turn mutually.The temporary fastening device of wireless banjo fixing butt jointing refers to wireless banjo fixing butt jointing is temporarily fixed on to the device on debugged panel of the board.As an example, temporary fastening device can be magnet, can stick on the panel of the board that iron does, and can be also vacuum cup, can stick on more smooth panel of the board.The cable of module B and computer serial ports joint are for being connected to wireless banjo fixing butt jointing the RS-232 serial ports of computer.

As a kind of preferred embodiment, above-mentioned wireless signal transceiver can comprise: infrarede emitting diode and Infrared Detectors.As shown in Figure 9, in module B, wireless signal transceiver consists of infrarede emitting diode, Infrared Detectors, RS-232 level transferring chip.Equally, for fear of between the infrarede emitting diode of module B and Infrared Detectors from transmitting-receiving, can add a slice baffle plate at infrarede emitting diode and Infrared Detectors, also can be by adopting infrarede emitting diode and the Infrared Detectors of different wave length to isolate (now, the infrarede emitting diode of module B wants corresponding with the wave band of the Infrared Detectors of modules A, and the Infrared Detectors of module B wants corresponding with the wave band of the infrarede emitting diode of modules A).The Tx signal that computer is sent is through RS-232 level transferring chip conversion Transistor-Transistor Logic level signal, and Transistor-Transistor Logic level signal changes into infrared signal through infrarede emitting diode.In Rx direction, Infrared Detectors converts the infrared signal of reception to Transistor-Transistor Logic level signal, then through RS-232 level transferring chip, converts RS-232 level to and give computer.The temporary fastening device of module B consists of a permanent magnet, can inhale on the panel of veneer.The computer serial ports joint of module B can adopt D type 9 core interfaces.

The above embodiment is just specifically described the present invention, but the present invention is not limited to described embodiment.For example, wireless signal transceiver can be realized with infrared chip or other wireless communication technique.

Obviously, those skilled in the art should be understood that, above-mentioned each module of the present invention or each step can realize with general calculation element, they can concentrate on single calculation element, or be distributed on the network that a plurality of calculation elements form, alternatively, they can be realized with the executable program code of calculation element, thereby, they can be stored in storage device and be carried out by calculation element, and in some cases, can carry out shown or described step with the order being different from herein, or they are made into respectively to each integrated circuit modules, or a plurality of modules in them or step are made into single integrated circuit module to be realized.Like this, the present invention is not restricted to any specific hardware and software combination.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (10)

1. a wireless debugging method for veneer, is characterized in that, comprising:

The first radio receiving transmitting module of debug terminal side is modulated to the first Debugging message in the first wireless signal;

Described the first radio receiving transmitting module sends to described the first wireless signal by the transmission of wireless signals window on veneer the second radio receiving transmitting module of described veneer side, wherein, described the first radio receiving transmitting module is connected with described transmission of wireless signals window, and described transmission of wireless signals window is a window of opening on veneer metal decking;

Described the second radio receiving transmitting module demodulates described the first Debugging message from described the first wireless signal, so that described veneer is debugged according to described the first Debugging message;

Wherein, described the first radio receiving transmitting module is adsorbed on the described transmission of wireless signals window of described veneer, to form and to dock with described the second radio receiving transmitting module.

2. method according to claim 1, is characterized in that, the first radio receiving transmitting module of described debug terminal side is modulated to the first wireless signal by the first Debugging message and comprises:

Described the first radio receiving transmitting module receives the first serial signal of the serial ports transmission of described debug terminal;

Described the first radio receiving transmitting module converts described first serial signal to described the first wireless signal.

3. method according to claim 2, it is characterized in that, described the first radio receiving transmitting module comprises: the first infrarede emitting diode and the first Infrared Detectors, and described the second radio receiving transmitting module comprises: the second infrarede emitting diode and the second Infrared Detectors, wherein

Described the first radio receiving transmitting module converts described first serial signal to described the first wireless signal and comprises:

Described the first infrarede emitting diode sends the first infrared signal according to described first serial signal;

Described the second radio receiving transmitting module demodulates described the first Debugging message and comprises from described the first wireless signal:

Described the second Infrared Detectors detects described first serial signal from described the first infrared signal.

4. method according to claim 1, is characterized in that, also comprises:

Described the second radio receiving transmitting module is modulated to the second Debugging message in the second wireless signal;

Described the second radio receiving transmitting module sends to described the first radio receiving transmitting module by described transmission of wireless signals window by described the second wireless signal;

Described the first radio receiving transmitting module demodulates described the second Debugging message from described the second wireless signal, so that described debug terminal generates described the first Debugging message according to described the second Debugging message.

5. method according to claim 4, is characterized in that, described the second radio receiving transmitting module is modulated to the second wireless signal by the second Debugging message and comprises:

Described the second radio receiving transmitting module receives the second serial signal of the serial ports transmission of described veneer;

Described the second radio receiving transmitting module converts described second serial signal to described the second wireless signal.

6. method according to claim 5, it is characterized in that, described the first radio receiving transmitting module comprises: the first infrarede emitting diode and the first Infrared Detectors, and described the second radio receiving transmitting module comprises: the second infrarede emitting diode and the second Infrared Detectors, wherein

Described the second radio receiving transmitting module converts described second serial signal to described the second wireless signal and comprises:

Described the second infrarede emitting diode sends the second infrared signal according to described second serial signal;

Described the first radio receiving transmitting module demodulates described the second Debugging message and comprises from described the second wireless signal:

The first Infrared Detectors detects described second serial signal from described the second infrared signal.

7. a wireless debugging device for veneer, is characterized in that, comprising:

The first radio receiving transmitting module, is positioned at debug terminal side, for the first Debugging message is modulated to the first wireless signal;

The second radio receiving transmitting module, be arranged in veneer, by the transmission of wireless signals window on described veneer, be connected with described the first radio receiving transmitting module, the transmitting terminal of described the second radio receiving transmitting module is corresponding with the receiving terminal of described the first radio receiving transmitting module, the transmitting terminal of described the first radio receiving transmitting module is corresponding with the receiving terminal of described the second radio receiving transmitting module, wherein, the first wireless signal that described the second radio receiving transmitting module sends by described transmission of wireless signals window for receiving described the first radio receiving transmitting module, and from described the first wireless signal, demodulate described the first Debugging message, so that described veneer is debugged according to described the first Debugging message, described transmission of wireless signals window is a window of opening on veneer metal decking,

Wherein, described the first radio receiving transmitting module is adsorbed on the described transmission of wireless signals window of described veneer, to form and to dock with described the second radio receiving transmitting module.

8. device according to claim 7, is characterized in that,

Described the second radio receiving transmitting module is also for the second Debugging message is modulated to the second wireless signal, and by described transmission of wireless signals window, described the second wireless signal sent to described the first radio receiving transmitting module;

Described the first radio receiving transmitting module is also for demodulating described the second Debugging message from described the second wireless signal, so that described debug terminal generates described the first Debugging message according to described the second Debugging message.

9. device according to claim 8, is characterized in that, also comprises:

The first serial of described debug terminal, is connected with described the first radio receiving transmitting module, for described the first Debugging message is transferred to described the first radio receiving transmitting module;

The second serial of described veneer, is connected with described the second radio receiving transmitting module, for the second Debugging message being transferred to described the second radio receiving transmitting module.

10. according to the device described in any one in claim 7 to 9, it is characterized in that, described the first radio receiving transmitting module comprises: the first infrarede emitting diode and the first Infrared Detectors, and described the second radio receiving transmitting module comprises: the second infrarede emitting diode and the second Infrared Detectors; Or described the first radio receiving transmitting module and described the second radio receiving transmitting module are bluetooth transceiver module.