JP2001333080A - Wireless communication equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless communication equipment the MAC(Medium Access Control) protocol of which a set-maker can freely set and that can surely receive data without the need for special operations. SOLUTION: Data are inserted to a MAC data unit area (MPDU) of a packet transmitted by the wireless communication equipment and data length information denoting the length of the data is inserted to a header of the packet. Upon the receipt of a packet, the wireless communication equipment sets a data reception processing time corresponding to the data length information to conduct data reception and reaches a reception standby state when the data reception time elapses. The wireless communication equipment sets a value denoting an infinite time to the data length information at the transmission of user data and sets a prescribed time to the data length information at the ID transmission by an automatic dialing function or the like. Thus, the MAC protocol such as a maximum data length and a maximum data reception processing time can freely be set. Furthermore, even in the case of receiving an ID, since the wireless communication equipment restores a reception standby state after a prescribed time, the wireless communication equipment can surely receive user data or the like.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio communication apparatus for transmitting, receiving or transmitting and receiving data.

[0002]

2. Description of the Related Art A wireless communication apparatus conforming to the IEEE 802.11 regulations transmits and receives a packet (PPDU) having a format as shown in FIG. In FIG. 1, PLCP (phy
sicallayer convergence protocol) data unit (P
PDU; PLCP protocol data unit) is 144-bit P
It has an LCP preamble area (PLCP Preamble), a 48-bit PLCP header area (PLCP Header), and a MAC (medium access control) data unit area (MPDU; MAC protocol data unit) with an arbitrary number of bits. In the PLCP preamble area, a 128-bit synchronization signal (SYNC) and a 16-bit separation code (SFD; start f
rame delimiter) is inserted. In the PLCP header area, 8-bit signal information (S
IGNAL), 8-bit service information (SERVICE), 16-bit data length information (LENGTH) indicating the length of data inserted in the MAC data unit area (MPDU), and 16-bit error check code (CRC) Is done. As the data length information (LENGTH), for example, a value indicating a data reception processing time (μs) required to perform reception processing of data inserted in the MAC data unit area (MPDU) is set. In such a wireless communication device, when transmitting and receiving data, the wireless communication devices on the transmission side and the reception side operate as shown in FIG. It is assumed that the wireless communication device on the receiving side is in a reception standby state. When transmitting data, the transmitting-side wireless communication apparatus transmits data having an arbitrary number of bits to the MA.
A packet is inserted into the C data unit area and data length information indicating the data length is inserted into the PLCP header. Upon receiving the packet, the wireless communication device on the receiving side synchronizes with the synchronization signal, and
Reads the data length information inserted in the 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 state returns to the reception standby state.

In the market, MAC (Medium Acc)
There is a great demand for a wireless communication device having no ess control) function (also referred to as a “non-intelligent wireless communication device”). This is because, for example, there is a demand that the set maker can freely design a MAC protocol such as a maximum data length and a maximum data reception processing time in accordance with an application. On the other hand, the Japanese Radio Law requires an automatic ID calling 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 calling function” is generally a function of automatically calling when the power of the wireless communication device is turned on or reset.

[0004]

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 set maker must handle the application. In order to allow the MAC protocol to be freely designed, it is necessary to set so as not to limit the length of data inserted into the MAC data unit area. In this case, a value indicating that the data length is unlimited is set as the data length information. Further, the non-intelligent wireless communication device needs to have an ID automatic calling function as described above. However, if a value indicating that the data length is unlimited is set as the data length information, the following problems occur.

For example, as shown in FIG. 3, radio communication devices (A) to (D) exist in the same area, radio communication devices (B) to (D) are in a reception standby state, and Assume that A) is in a power-off state. 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 an “ID packet”) by an automatic calling function. I do. Upon receiving the ID packet transmitted from the wireless communication device (A), the wireless communication devices (B) to (D) synchronize with the ID packet synchronization signal and then start receiving data. 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 received ID packet is completed, the data reception processing state is maintained, and the apparatus does not return to the reception standby state. In this case, the wireless communication devices (B) to (D)
Even if a packet in which arbitrary user data is inserted as data from another wireless communication device, for example, the wireless communication device (A) (hereinafter, referred to as a “user packet”), the data included in the user packet is transmitted. May not be received. For example, if the data transmission speed of the ID packet is different from the data transmission speed of the user packet, the system temporarily returns from the ID packet reception state to the reception standby state and receives the data of the user packet unless the transmission speed of the user packet is synchronized. Cannot be processed.

In order to prevent the data reception processing from being disabled as described above, for example, an error recovery processing function is provided to automatically return to the reception standby state when data reception processing is not performed for a predetermined time. I just need. However, since the time for activating 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 activating the error recovery processing function on the set maker side, Work burden is required. The present invention has been made in order to solve such a problem, and has a special function to ensure that data can be received, and does not require any special operation to perform data and data processing. It is an object of the present invention to provide a wireless communication device which can constitute a non-intelligent wireless communication device having a function of transmitting, receiving or transmitting and receiving data length information.

[0007]

According to a first aspect of the present invention, there is provided a wireless communication apparatus as set forth in claims 1 to 3. In the wireless communication apparatus according to the first to third aspects, 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 transmitting user data is set to a value meaning unlimited, the set maker side can freely set the MAC protocol such as the maximum data length and the maximum data reception processing time according to the application Can be. Further, since a predetermined value is set as the data length information at the time of transmitting the ID, for example, even if another wireless communication device transmits the ID by the automatic calling function, the data is received after the data reception processing time corresponding to the predetermined value. Return to the standby state. As a result, data can be reliably received without requiring any special operation 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]

Embodiments of the present invention will be described below. FIG. 4 is a schematic configuration diagram of an embodiment of the wireless communication device of the present invention. The wireless communication device shown in FIG. 1 is a wireless communication device using a direct spread-spread spectrum system (DS-SS system). By using the spread spectrum method, the influence of the interference wave can be reduced and the transmission speed can be increased. As a spread spectrum method, a frequency hopping (FH) method and the like are known in addition to the direct spread method. Antenna 1
Numeral 0 is connected to a common contact 12a of the transmission / reception switch 12 via a filter 11 such as a band-pass filter. A reception contact 12b of the transmission / reception switch 12 is connected to the 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 mixers 18 and 19 of a quadrature demodulator (Quadrature Demodulator) 17 via an amplifier 16. The mixer 18 mixes the intermediate frequency signal with the second local oscillation signal output from the second local oscillator 20, and outputs an in-phase reception signal Ir. Mixer 1
9 mixes the intermediate frequency signal with the second local oscillation signal output from the second local oscillator 20 whose phase is shifted by 90 degrees in the phase shift circuit 21 to output the quadrature reception signal Qr. . The baseband processor 23 decodes data based on the in-phase received signal Ir and the quadrature-phase received signal Qr.

On the other hand, the baseband processor 23
Data to be transmitted is divided into an in-phase transmission signal It and a quadrature-phase transmission signal Qt, and supplied to a quadrature modulator (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 quadrature transmission signal Qt having a phase of 9
An intermediate frequency signal obtained by synthesizing a signal modulated by the second local oscillation signal shifted by 0 degrees is output. The mixer 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 switch 12. The baseband processor 23
Supplies a transmission switching signal to the transmission / reception 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 switching switch 12 during the transmission operation to connect the common contact 12a Connect to contact 12c. Further, the baseband processor 23 determines the level of the received signal of each communication channel based on the received field strength signal (RSSI) indicating the level of the received signal, and sends the channel scan signal to the first local oscillator 15. A process of supplying the data and scanning the communication channel is performed, and a communication channel for communication is determined.

When transmitting data, the baseband processor 23 forms, for example, a packet having the format shown in FIG. That is, the data to be transmitted is
A process of inserting the data length information indicating the length of the data to be transmitted into the header of the CP data unit is performed. Then, the data to be transmitted is converted into the in-phase transmission signal It and the quadrature transmission signal Q
The signal is transmitted through the quadrature modulator 22, the mixer 14, the transmission / reception 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 changeover switch 12 and the mixer 13, and the in-phase reception signal Ir and the quadrature Of the 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 process returns to the reception standby state.

Here, the baseband processor 23
When an ID packet is transmitted, that is, when transmitting an ID packet, the ID is inserted into the MAC data unit of the packet, and the data length information set to a predetermined value is inserted into the header. The baseband processor 23 of the wireless communication device that has received the ID packet performs data reception processing during a data reception processing time according 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 process returns to the reception standby state. On the other hand, at the time of data transmission, that is, when transmitting a user packet, the baseband processor 23 inserts the user packet into the MAC data unit of the packet, and transmits the data length information set to a value meaning unlimited in the header. Insert The baseband processor 23 of the wireless communication device that has received the user packet performs data reception processing for a data reception processing time according to the data length information. In this case, since a value indicating unlimited is set as the data length information, the data receiving process is performed without limitation.

As described above, the wireless communication apparatus of the present invention is configured such that a value indicating unlimited is set as data length information at the time of transmitting user data. Therefore, the set manufacturer can freely set the MAC protocol according to the application. For example, the maximum data length or the maximum data reception processing time can be set to an unlimited data length or any value within the unlimited data reception processing time. Also, a predetermined value is set as data length information at the time of ID transmission. Therefore, for example, even when another wireless communication apparatus transmits an ID by the automatic calling function, the apparatus returns to the reception standby state after performing data reception processing for a data reception processing time corresponding to a predetermined value. This allows
It is not necessary to provide an error recovery processing function in order to reliably receive data, and it is not necessary for the set maker to set a time for activating the error recovery processing function.

In the above embodiment, the spread spectrum wireless communication apparatus has been described. However, the wireless communication apparatus of the present invention can be configured as a wireless communication apparatus of various systems other than the spread spectrum method. Further, the wireless communication device capable of transmitting and receiving has been described, but the wireless communication device of the present invention can also be configured as a wireless communication device having a function of only transmission or only reception. The format of the packet is not limited to the format shown in FIG. 1 and can be variously changed.

[0014]

As described above, the use of the wireless communication device according to any one of claims 1 to 3 allows the set maker to freely set the MAC protocol corresponding to the application, Thus, it is possible to obtain a wireless communication device capable of reliably receiving data without requiring any special operation.

[Brief description of the drawings]

FIG. 1 is a diagram showing a packet including data and data length information.

FIG. 2 is a diagram showing a processing procedure when transmitting and receiving a packet including data and data length information.

FIG. 3 is a diagram illustrating an operation of a conventional wireless communication device.

FIG. 4 is a diagram showing a schematic configuration diagram of a direct spread type spread spectrum wireless communication apparatus.

FIG. 5 is a diagram illustrating the operation of the wireless communication device according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Antenna 12 Transmission / reception changeover switch 13, 14, 18, 19 Mixer 15, 20 Local oscillator 17 Quadrature demodulator 22 Quadrature modulator 23 Baseband processor

Claims (3)

[Claims] 1. A wireless communication apparatus for transmitting data and data length information indicating the length of data, wherein the data length information is set to be unlimited when transmitting user data, and the data length information is set to a predetermined value when transmitting ID. The wireless communication device to set. 2. A wireless communication apparatus for transmitting data and data length information indicating the length of data and controlling a data reception processing time based on the received data length information, wherein the data length information is transmitted when user data is transmitted. Set unlimited, I
A wireless communication device that sets data length information to a predetermined value when transmitting D. 3. A wireless communication device comprising: a wireless transmission device that transmits data and data length information indicating the length of the data; and a wireless reception device that controls a data reception processing time based on the received data length information. The wireless transmission device sets the data length information to be unlimited when transmitting user data, and sets the data length information to a predetermined value when transmitting ID.