JP3757758B2 - Wireless communication device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wireless communication apparatus that transmits, receives, or transmits / receives data.
[0002]
[Prior art]
A wireless communication device compliant with the IEEE 802.11 standard transmits and receives a packet (PPDU) having a format as shown in FIG. In FIG. 1, a PLCP (physical layer convergence protocol) data unit (PPDU) includes a 144-bit PLCP preamble region (PLCP Preamble), a 48-bit PLCP header region (PLCP Header), and an arbitrary number of bits. It has a MAC (medium access control) data unit area (MPDU; MAC protocol data unit). A 128-bit synchronization signal (SYNC) and a 16-bit separation code (SFD; start frame delimiter) are inserted in the PLCP preamble area. In the PLCP header area, 8-bit signal information (SIGNAL) indicating a data modulation method, 8-bit service information (SERVICE), and 16 bits indicating the length of data inserted in the MAC data unit area (MPDU) Data length information (LENGTH) and a 16-bit error check code (CRC) are inserted. As the data length information (LENGTH), for example, a value indicating a data reception processing time (μs) necessary for receiving and processing data inserted in the MAC data unit area (MPDU) is set.
In such a wireless communication apparatus, when transmitting and receiving data, the wireless communication apparatuses on the transmission side and the reception side operate as shown in FIG. It is assumed that the reception-side wireless communication device is in a reception standby state. When transmitting data, the wireless communication device on the transmitting side transmits a packet in which data of an arbitrary number of bits is inserted into the MAC data unit area and data length information indicating the length of the data is inserted into the PLCP header. To do. When receiving the packet, the receiving-side wireless communication device synchronizes with the synchronization signal and reads the data length information inserted in the PLCP header. Then, a data reception processing time corresponding to the read data length information is set, and data reception processing is performed. When the data reception processing time elapses, the reception standby state is restored.
[0003]
Meanwhile, in the market, there is a great demand for a wireless communication device (also referred to as “non-intelligent wireless communication device”) that does not have a MAC (Medium Access Control) function. This is because, for example, there is a request that the MAC protocol such as the maximum data length and the maximum data reception processing time can be freely designed on the set maker side corresponding to the application.
On the other hand, the Japanese radio law requires an ID automatic call function for type authentication of a non-intelligent wireless communication device. Here, “ID” is a unique identifier assigned to each wireless communication device. The “automatic call function” is a function that automatically makes a call when the power of the wireless communication apparatus is turned on or reset.
[0004]
[Problems to be solved by the invention]
When a wireless communication device that sets the data reception processing time based on the data length information as described above is used as the non-intelligent wireless communication device, the MAC protocol can be freely designed by the set maker in accordance with the application. Therefore, it is necessary to set the length of data to be inserted into the MAC data unit area so as not to limit. In this case, as the data length information, a value indicating that the data length is unlimited is set.
Further, as described above, the non-intelligent wireless communication device needs to have an ID automatic call function. However, if a value indicating that the data length is unlimited is set as the data length information, the following problems occur.
[0005]
For example, as shown in FIG. 3, the wireless communication devices (A) to (D) exist in the same area, the wireless communication devices (B) to (D) are in a reception standby state, and the wireless communication device (A) Assume that the power is off.
In this state, when the power of the wireless communication device (A) is turned on, the wireless communication device (A) transmits a packet in which an ID is inserted as data (hereinafter referred to as “ID packet”) by the automatic call function. To do. When receiving the ID packet transmitted from the wireless communication device (A), the wireless communication devices (B) to (D) start receiving data after synchronizing with the synchronization signal of the ID packet. At this time, if a value indicating that the data length is unlimited is set as the data length information of the ID packet, the wireless communication devices (B) to (D) are transmitted from the wireless communication device (A). Even after the reception of the ID packet is completed, the data reception processing state is maintained and the reception standby state is not restored.
In this case, the wireless communication devices (B) to (D) are packets (hereinafter referred to as “user packets”) in which arbitrary user data is inserted as data from other wireless communication devices, for example, the wireless communication device (A). Even if is transmitted, the data included in the user packet may not be received. For example, if the data transmission rate of the ID packet is different from the data transmission rate of the user packet, the user packet data is received unless the ID packet reception state is temporarily returned to the reception standby state and synchronized with the user packet transmission rate. It cannot be processed.
[0006]
In order to prevent the data reception processing from being disabled in this way, for example, an error recovery processing function may be provided that automatically returns to the reception standby state when data reception processing is not performed for a predetermined time or longer.
However, since the time for operating the error recovery processing function varies depending on the user, if the error recovery processing function is provided, it is necessary to set the time for operating the error recovery processing function on the set manufacturer side. Work burden is applied.
The present invention was devised to solve such problems, and it is possible to provide data and data without giving a special function for ensuring data reception or performing special work. It is an object of the present invention to provide a wireless communication apparatus that can constitute a non-intelligent wireless communication apparatus having a function of transmitting, receiving, or transmitting / receiving data length information.
[0007]
[Means for Solving the Problems]
A first invention of the present invention for solving the above-described problems is a wireless communication apparatus as described in claims 1 to 3.
In the wireless communication apparatus according to any one of claims 1 to 3, the data length information is set to a value meaning unlimited when transmitting user data, and the data length information is set to a predetermined value when transmitting ID. Since the data length information at the time of user data transmission is set to a value that means unlimited, the set manufacturer can freely set the MAC protocol such as the maximum data length and maximum data reception processing time according to the application Can do. In addition, since a predetermined value is set as data length information at the time of ID transmission, for example, even if another wireless communication device transmits an ID by an automatic call function, it is received after a data reception processing time corresponding to the predetermined value. Return to standby state. As a result, data can be reliably received without requiring any special work such as providing an error recovery processing function or setting a time for operating the error recovery processing function on the set maker side.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below.
FIG. 4 is a schematic configuration diagram of an embodiment of the wireless communication apparatus of the present invention. The wireless communication device shown in FIG. 1 is a wireless communication device using a direct spread-spread spectrum method (DS-SS method). By using the spread spectrum method, the influence of interference waves can be reduced and the transmission speed can be increased. In addition to the direct spread method, a frequency hopping (FH) method and the like are known as the spread spectrum method.
The antenna 10 is connected to a common contact 12 a of a transmission / reception change-over switch 12 via a filter 11 such as a bandpass filter, and a reception-side contact 12 b of the transmission / reception change-over switch 12 is connected to a mixer 13.
The mixer 13 mixes the received signal with the first local oscillation signal output from the first local oscillator 15 and outputs an intermediate frequency signal.
The intermediate frequency signal output from the mixer 13 is supplied to the mixers 18 and 19 of the quadrature demodulator 17 via the amplifier 16. The mixer 18 mixes the intermediate frequency signal and the second local oscillation signal output from the second local oscillator 20 and outputs an in-phase reception signal Ir. The mixer 19 mixes the intermediate frequency signal and the second local oscillation signal output from the second local oscillator 20 whose phase is shifted by 90 degrees by the phase shift circuit 21 to generate a quadrature phase received signal Qr. Output.
The baseband processor 23 decodes data based on the in-phase received signal Ir and the quadrature-phase received signal Qr.
[0009]
On the other hand, the baseband processor 23 divides the data to be transmitted into an in-phase transmission signal It and a quadrature transmission signal Qt, and supplies the data to a quadrature modulator 22 having the same configuration as the quadrature demodulator 17. The quadrature modulator 22 converts a signal obtained by modulating the in-phase transmission signal It with the second local oscillation signal and a signal obtained by modulating the quadrature phase transmission signal Qt with the second local oscillation signal whose phase is shifted by 90 degrees. The synthesized intermediate frequency signal is output.
The mixer 14 modulates the intermediate frequency signal with the first local oscillation signal. The mixer 14 is connected to the transmission side contact 12 c of the transmission / reception selector switch 12.
The baseband processor 23 supplies a transmission switching signal to the transmission / reception change-over switch 12 during the reception operation to connect the common contact 12a to the reception-side contact 12b, and supplies a transmission switching signal to the transmission / reception change-over switch 12 during the transmission operation. The common contact 12a is connected to the transmission side contact 12c.
Further, the baseband processor 23 determines the level of the received signal of each communication channel based on the received electric field strength signal (RSSI) indicating the level of the received signal, and sends the channel scan signal to the first local oscillator 15. A communication channel for communication is determined by performing processing to supply and scan the communication channel.
[0010]
When transmitting data, the baseband processor 23 configures, for example, a packet having the format shown in FIG. That is, processing for inserting the data to be transmitted into the MAC data unit area of the PLCP data unit, processing for inserting data length information indicating the length of the data to be transmitted into the header, and the like are executed. Then, the data to be transmitted is divided into an in-phase transmission signal It and a quadrature transmission signal Qt, and transmitted via the quadrature modulator 22, the mixer 14, the transmission / reception selector switch 12, and the antenna 10.
On the other hand, when a signal is received via the antenna 10 in the reception standby state, the received signal is supplied to the quadrature demodulator 17 via the transmission / reception selector switch 12 and the mixer 13, and the received signal Ir and the quadrature signal having the same phase are supplied. Received signal Qr. The baseband processor 23 decodes data based on the in-phase received signal Ir and the quadrature-phase received signal Qr. That is, the data reception processing time is set based on the data length information included in the received packet, and the reception processing of the data inserted in the packet is performed. When the data reception processing time elapses, the reception standby state is restored.
[0011]
Here, the baseband processor 23 inserts the ID into the MAC data unit of the packet at the time of ID transmission, that is, when transmitting the ID packet, and inserts the data length information set to a predetermined value into the header. . The baseband processor 23 of the wireless communication apparatus that has received the ID packet performs data reception processing for the data reception processing time corresponding to the data length information. In this case, a predetermined time corresponding to a predetermined value is set as the data reception processing time. When the data reception processing time elapses, the reception standby state is restored.
On the other hand, the baseband processor 23 inserts a user packet into the MAC data unit of the packet at the time of data transmission, that is, when a user packet is transmitted, and headers data length information set to a value meaning unlimited. Insert into. The baseband processor 23 of the wireless communication apparatus that has received the user packet performs data reception processing for the data reception processing time corresponding to the data length information. In this case, since a value meaning unlimited is set as the data length information, the data reception process is performed without limitation.
[0012]
As described above, the wireless communication apparatus of the present invention is configured such that a value meaning unlimited is set as the data length information at the time of user data transmission. For this reason, the set manufacturer can freely set the MAC protocol according to the application. For example, the maximum data length, the maximum data reception processing time, etc. can be set to any value within the unlimited data length or the unlimited data reception processing time.
In addition, a predetermined value is set as data length information at the time of ID transmission. For this reason, for example, even when another wireless communication apparatus transmits an ID by the automatic call function, the data reception processing is performed for the data reception processing time corresponding to the predetermined value, and then the reception standby state is restored. As a result, it is not necessary to have an error recovery processing function to ensure that data can be received, and there is no need to set time for operating the error recovery processing function on the set manufacturer side. Become.
[0013]
Although the spread spectrum wireless communication apparatus has been described in the above embodiment, the wireless communication apparatus of the present invention can be configured as various wireless communication apparatuses other than the spread spectrum system.
Further, although the wireless communication apparatus capable of transmitting and receiving has been described, the wireless communication apparatus of the present invention can also be configured as a wireless communication apparatus having a function of only transmission or reception.
The packet format is not limited to the format shown in FIG.
[0014]
【The invention's effect】
As described above, if the wireless communication device according to claims 1 to 3 is used, the set manufacturer can freely set the MAC protocol corresponding to the application, and the set manufacturer can perform special work. A wireless communication apparatus that can reliably receive data can be obtained without the need.
[Brief description of the drawings]
FIG. 1 is a diagram showing a packet including data and data length information.
FIG. 2 is a diagram illustrating a processing procedure when a packet including data and data length information is transmitted / received.
FIG. 3 is a diagram for explaining the operation of a conventional wireless communication apparatus.
FIG. 4 is a diagram illustrating a schematic configuration diagram of a spread spectrum wireless communication apparatus of a direct spread method.
FIG. 5 is a diagram for explaining the operation of the wireless communication apparatus of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Antenna 12 Transmission / reception selector switch 13, 14, 18, 19 Mixer 15, 20 Local oscillator 17 Quadrature demodulator 22 Quadrature modulator 23 Baseband processor

Claims (3)

A wireless communication apparatus for transmitting data and data length information indicating the length of the data, wherein the data length information is set to unlimited when transmitting user data, and the data length information is set to a predetermined value when transmitting ID . A wireless communication device that transmits data and data length information indicating the length of the data and controls the data reception processing time based on the received data length information, and sets the data length information to unlimited when transmitting user data, A wireless communication apparatus that sets data length information to a predetermined value during ID transmission. A wireless communication device comprising: a wireless transmission device that transmits data and data length information indicating a data length; and a wireless reception device that controls a data reception processing time based on the received data length information. Is a wireless communication apparatus that sets unlimited data length information when transmitting user data and sets the data length information to a predetermined value when transmitting ID.

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