JP3798770B2 - Information processing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information processing apparatus that can be connected to a wireless communication apparatus.
[0002]
[Prior art]
(1) Current information processing apparatuses such as computers mainly use information communication via a wired line. FIG. 50 shows a typical configuration example of the information processing apparatus.
[0003]
The information processing apparatus 201 includes an input / output interface 202 that connects the information processing apparatus main body to a wired line or a wireless line, a control unit 203 that controls the information communication apparatus 201, a storage device 204 that stores information, An information processing unit 205 that performs information processing, an information output device 206 that outputs information, and an information input device 207 that inputs information.
[0004]
When information communication is performed via a wired line, restrictions on the installation location of the information processing apparatus 201 are large, which is inconvenient in practice. For this reason, recently, a method of transmitting information of the information processing apparatus 201 via a wireless line has attracted attention.
[0005]
In this method, a wireless communication device is incorporated in the information processing device 201 from the stage of manufacturing the information processing device 201 in advance and has a wireless communication function, and a wireless communication device different from the information processing device 201 is connected to the information processing device main body. There is a method of connecting and performing wireless communication. A typical configuration example of the wireless communication device is shown in FIG.
[0006]
The wireless communication device 211 includes an information input / output interface device 212 that connects the device to a wired line or a wireless line, a control unit 213 that controls the wireless communication device 211, a storage device 214 that stores information, and wireless communication. A wireless communication unit 215 for performing information, an information output device 216 for outputting information, an information input device 217 for inputting information, and an antenna 218 for transmitting or receiving by radio waves are provided.
[0007]
In the former case, it is necessary to set the radio communication frequency and the information transmission speed at the stage of manufacturing the information processing apparatus 201, which can be applied only to a specific radio communication system. For this reason, it cannot be used in a wireless communication area where the service of the wireless communication system is not performed. Further, since the wireless communication device 211 is always incorporated even in a state where information transmission is not performed using wireless communication, the volume of the information communication device 201 is larger than the function. For this reason, the latter is considered to be the mainstream.
[0008]
Many of the information processing apparatuses 201 include a slot for connecting a PC (Personal Computer) card conforming to the PCMCIA (Personal Computer Memory Card International Association) standard.
[0009]
The PC card incorporates a storage device for storing information and a specific program, and is used for the purpose of adding functions of the information processing device 201. When the PC card type wireless communication device 211 compliant with the PCMCIA standard is used, it is easy to connect to the information processing device 201 and is based on the PCMCIA standard that is an international standard. There is no restriction on the type of the communication device 211. For this reason, the wireless communication frequency and information transmission speed of the wireless communication device 211 can be freely selected, and the wireless communication system being serviced at the position where the information processing device 201 is placed can be used. Therefore, the restriction on the position of the information processing apparatus 201 becomes very small. This method is highly versatile, and it is considered that this method is often used in a method in which the information communication apparatus 201 and the wireless communication apparatus 211 are connected to perform information communication via a wireless line.
[0010]
However, in many cases, such a PC card type wireless communication apparatus 211 is not wirelessly designed in consideration of unnecessary radiation in the wireless communication frequency band generated in the information processing apparatus 201. In many cases, the system has not been designed to reduce unnecessary radiation into the wireless communication frequency band.
[0011]
For this reason, unnecessary radiation generated in the information processing apparatus 201 into the wireless communication frequency band works as an interference wave when performing wireless communication. This is shown in FIG.
[0012]
In FIG. 52, the horizontal axis represents frequency and the vertical axis represents power level. A region between broken lines in the figure is a wireless communication frequency band, a line spectrum is a power level of unnecessary radiation from the information communication apparatus 201, and a wavy line is white noise generated due to thermal noise of the information communication apparatus 201. Power level.
[0013]
All of these spectra function as noise and interfere with the desired radio communication. In such a radio wave environment, when the power level of the received signal is low, a desired wireless communication quality such as a signal-to-noise ratio or an error rate cannot be satisfied, and wireless communication may be difficult or impossible.
[0014]
(2) Also, with recent advances in semiconductor technology and mounting technology, miniaturization of wireless communication terminals is also progressing. Wireless communication using a digital transmission method includes a mobile phone and a simple mobile phone that is planned to be introduced in the future. In these wireless communication terminals, voice transmission is the center of service, but it is predicted that demand for data transmission will increase in the future. On the other hand, in an information processing apparatus such as a personal computer or a workstation, a wireless communication function can be added by attaching a modem and a wireless device. This system, generally called a wireless LAN, is a unique system that is different from a wireless communication system such as a cellular phone that is now widely used. In the future, it is expected that economical and more efficient data transmission will be possible by directly connecting a wireless communication terminal to the information processing apparatus. In this case, a modem and a dedicated wireless device necessary for the information processing apparatus are not required, and a wireless communication function can be added economically. Further, there is an advantage that a wide area network can be used in the wireless communication system, and the frequency can be effectively used.
[0015]
(3) In recent information processing apparatuses, the frequency of the reference signal for driving various units such as the main CPU, sub CPU, ROM, DRAM, VRAM, floppy disk controller, LCD controller, and keyboard controller is several. It has become as high as MHz to several tens of MHz. Along with this, reference signal generators in information processing devices, various ICs, signal lines and ground lines on circuit boards, floppy disk drive units, flexible cables used to connect displays to circuit boards, and references from the display itself A signal having a frequency that is an integral multiple of the frequency of the signal and the reference signal, that is, a high-frequency signal of the reference signal is generated, and this unnecessary radiation leaks outside the housing of the information processing device, and other information processing terminals and nearby Problems have been pointed out, such as interference with other electronic devices and malfunctioning of these peripheral devices.
[0016]
On the other hand, the casing of the information processing device is made of metal, a metal wall is provided inside the casing, or the casing is shielded with a conductive paint, etc. To suppress unnecessary radiation from the chassis, or by covering the reference signal generator or specific IC with a metallic cap, etc., to suppress unwanted radiation from the main components that are the source of generation. In particular, by adding countermeasures such as newly adding EMI countermeasure parts such as EMI filters and ferrite cores to the signal lines on the circuit board and the connection cables between the circuit board and other components, unnecessary radiation is caused. Suppressing unnecessary radiation of the harmonic components of the reference signal, which is easy to suppress, results in suppression of unnecessary radiation from the information processing device. However, such a metal shield increases the cost and weight of the terminal. There are problems such as pressure, in particular, for small-sized portable terminal has its weight gain a significant problem.
[0017]
Recently, a system for transmitting and receiving information in the information processing terminal device between a plurality of information processing terminals via various personal wireless communication systems such as a mobile phone and a paging system. Consideration is being actively made. Currently available systems include a system in which a mobile phone and an information processing device are connected using a dedicated connector, and data in the information processing device is transmitted and received via a wireless communication system of the mobile phone. It is very inconvenient to connect a mobile phone having a large shape to an information processing apparatus and perform wireless communication. Therefore, as a future development form, the above-described form, that is, a wireless communication function is provided in the information processing apparatus, or a small wireless card having a wireless communication function is inserted into the card slot of the information processing apparatus. Therefore, a system for transmitting and receiving data by wireless communication is required.
[0018]
However, the problem in this case is that the information processing terminal includes the reference signal generator, various ICs, signal lines and ground lines on the circuit board, floppy disk drive, display and circuit board as described above. Unnecessary radiation is generated from a flexible cable used for connection.
[0019]
When a wireless communication function is provided in an information processing device in which unwanted radiation is mixed, the unwanted radiation is mixed into the wireless circuit via the antenna of the wireless unit or the signal line on the circuit board. It may not be possible.
[0020]
In particular, since the level of radio waves received by the wireless unit at the time of reception is very small, there is a problem that the unnecessary radiation level becomes larger than the reception sensitivity level, and reception is impossible.
[0021]
On the other hand, the conventional shielding to the casing has no effect. Therefore, measures such as suppressing unnecessary radiation from the source component by shielding the reference signal generator on the circuit board or a specific IC with a metal cap etc. can be considered. The signal lines and ground lines above, flexible disks used to connect the floppy disk drive and display to the circuit board, the reference signal from the display itself, etc., and the unnecessary radiation of its harmonic components are large. Providing shields individually increases the weight and costs.
[0022]
(4) Also, in recent years, multi-function information processing terminals, OA devices, and the like that perform wired data transmission and wireless data transmission simultaneously with one terminal have been developed.
[0023]
However, with regard to the wireless communication function, it is more convenient to use it by separating it and carrying it. Therefore, the wireless function is not built in the terminal, but is usually used as a portable wireless device. When connecting to a wired data terminal, word processor, computer, etc., it is connected by a cable or inserted into an insertion slot. You can think of a mobile phone. Mobile terminals such as mobile phones, cordless telephones, pagers, etc. can be considered as wireless terminals used in such mobile phones, and such forms can be realized by the recent development of miniaturization, thinning, and weight reduction of wireless terminals. It has become to.
[0024]
Now, when the wireless terminal is used in an OA device, an information processing apparatus or the like, or used by cable connection, the noise generated by the information processing apparatus described above becomes a problem. This will be specifically described with reference to FIG.
[0025]
FIG. 53 shows a state in which a card-type wireless terminal 2002 is inserted into a card slot 2003 of a small information processing apparatus 2001 such as a word processor or a personal computer and used as a wireless device. In this case, the information processing apparatus 2001 normally includes a number of clock oscillators 2004 serving as reference clocks such as ROM and RAM, and an amplifier 2005 for amplifying signals. The output of the oscillator 2004, spurious components, harmonic components, and the like are amplified by the amplifier 2005 to become an interference wave 2006 for the wireless terminal 2002. Further, it is also conceivable that thermal noise generated in a circuit inside the information processing apparatus 2001 is similarly amplified by the amplifier 2005 and interferes with the wireless terminal. The wireless terminal 2002 receives the radio wave 2007 transmitted from the radio base station. If the interference wave 2006 generated from the information processing apparatus 2001 is superimposed on the radio wave 2007, reception sensitivity is deteriorated and communication quality is deteriorated. .
[0026]
FIG. 54 (a) shows a desired signal 6002 received from the base station on the wireless terminal 2002 side and a thermal noise 6003 of the receiving unit when there is no interference wave. As shown in b), the output of the oscillator inside the information processing apparatus 2001, its spurious signal 6004, thermal noise 6005 and the like interfere with each other, and the reception quality is deteriorated.
[0027]
53, when the radio wave 2002 transmitted from the radio terminal 2002 to the base station interferes with the radio terminal 2002, the S / N of the transmission signal and the modulation accuracy are degraded, and the communication quality is also degraded. Bring. FIG. 55 shows this state when viewed at the receiving base station.
[0028]
That is, when there is no radio wave interference in the wireless terminal 2002 built in the information processing apparatus 2001 (FIG. 55A), the transmission wave from the terminal side 2002 received on the base station side has good purity as indicated by 5001. C / N is maintained. However, when receiving interference from the information processing apparatus 2001 (FIG. 55 (b)), in addition to the radio wave 5002 that should originally be received by the base station, the spurious signal 5003 of the oscillator inside the information processing apparatus 2001 and heat The noise 5004 is modulated and superimposed together with the carrier wave 5002, and the reception characteristics on the base station side are significantly degraded. An example of the cause of this deterioration will be described with reference to FIG.
[0029]
That is, in FIG. 56, the oscillator signal from the oscillator 7002 existing inside the information processing apparatus is the signal 7005 as it is, or the oscillator signal 7003 is amplified by the amplifier 7004 and is inserted into the information processing apparatus as a signal 7006. Is transmitted to the radio base station from the amplifier 7009 and the antenna 7011 after being converted into a high frequency signal by a transmission mixer (frequency converter) 7007 together with the desired signal 7012. is there.
[0030]
In order to solve these problems, it can be considered that the wireless terminal 2002 of FIG. 53 and the oscillator 2004 and amplifier 2005 in the information processing apparatus 2001 are separated by a shield in the information processing apparatus 2001. However, the shield does not completely prevent radio wave interference. Further, if the shielding effect is increased, the shield portion becomes larger as the shielding effect is increased, the size of the information processing apparatus 2001 is increased, and the price of the information processing apparatus 2001 is increased by the shielding material. As a result, it is not a good idea to improve only by shielding.
[0031]
(5) The small information processing apparatus may be used by connecting to a network in order to share data. In this case, it is possible to operate such as leaving a large amount of data not in the information processing apparatus but in another place and bringing a part of it when necessary. For this reason, when a large amount of data is handled by an information processing apparatus or the like, it is preferable to use the information processing apparatus connected to a network system.
[0032]
Conventionally, as such a network system, an external database using a LAN or a telephone line is used, and the information processing apparatus 701 is connected to the host computer 702 by a wired cable 703 as shown in FIG. A coaxial cable or an optical fiber cable is used as the wired cable.
[0033]
However, recent information processing apparatuses have been reduced in size and are configured to be portable, and the wired cable 703 is an obstacle to utilizing the mobility that is the feature of the information processing apparatus.
[0034]
Instead of using the wired cable 702 in order to improve the above problem, it is conceivable to connect wirelessly. In this case, it is possible to connect the line at any position by arranging the base station at an appropriate position. In addition, since the current information processing apparatus 701 does not have a wireless unit, a wireless unit for communication must be attached to the outside. As shown in FIG. 58, recent information processing apparatuses such as personal computers and portable information terminals have a card slot 805 for line connection, and it is conceivable to use the card radio 802 by inserting it here. . However, when such a wireless line connection is performed, as described above, noise generated from the information processing apparatus may hinder communication.
[0035]
As a countermeasure for this, a method is considered in which a communication part is separately provided and the wireless unit is placed as far as possible from a computer or a portable information terminal so as not to be affected by noise. Further, when a card wireless device is used in a computer, a portable information terminal or the like, it is necessary to take measures such as putting the antenna portion outside so as not to be affected by internal noise. However, when only the antenna portion is exposed to the outside, only that portion becomes a protrusion, so that the appearance is easily lost or damaged. For this reason, an antenna that is completely built-in and hardly affected by noise is desired.
[0036]
(6) Recently, IC cards that are inserted into expansion slots of information processing apparatuses such as word processors and personal computers are widely used. However, as these IC cards, wireless cards having a wireless communication function are There is an increasing demand because it has the advantage of being able to communicate while on the move and not having to be connected with a cable as in the case of wired.
[0037]
However, when the clock frequency used in the memory in the information processing apparatus and the frequency that is an integral multiple of the clock frequency corresponds to the frequency within the band of the reception filter of the reception circuit in the wireless card, as described above, A signal caused by the clock may interfere with the receiving circuit, resulting in reception failure. For this reason, it is difficult for the wireless card to perform practically stable reception.
[0038]
[Problems to be solved by the invention]
As described above in (2), when the wireless communication terminal is made thinner, a slot is provided in the information processing apparatus, and when data communication with the outside is performed by inserting the wireless communication terminal into the slot, The fluctuation of the radio wave environment generated internally by the processing of the processing device can be an interference signal for the wireless communication terminal. That is, there is a problem that the reception characteristics of the wireless communication terminal are deteriorated by superimposing these interference signals on the desired signal.
[0039]
The present invention makes it possible to suppress the occurrence of an interference signal when a change in the internal radio wave environment of the information processing apparatus becomes an interference signal for a wireless communication terminal, and as a result, the communication quality due to the interference signal emitted by the information processing apparatus An object of the present invention is to provide an information processing apparatus capable of avoiding deterioration of the image.
[0040]
[Means for Solving the Problems]
  According to claim 1The present invention relates to an information processing apparatus connectable to a wireless communication apparatus, means for holding electric field strength information about an interference signal generated due to execution of arbitrary processing in the information processing apparatus, and the wireless communication apparatus Processing in the information processing device that affects the communication operation of the wireless communication device according to the field strength information of the desired signal received by the device and the field strength information about the held interference signalIs executed in the non-reception period of the wireless communication of the wireless communication deviceAnd a control means.
  According to a second aspect of the present invention, in the information processing apparatus according to the first aspect, the means for holding the electric field strength information is associated with each of a plurality of processes in the information processing apparatus and executes the process. The control means holds electric field strength information about interference signals generated due to the interference signal corresponding to each of the plurality of processes and an electric field of a desired signal received by the wireless communication device. Means for determining a process in the information processing apparatus that affects a communication operation of the wireless communication apparatus according to the strength information, and the determined process is executed in a non-reception period of the wireless communication of the wireless communication apparatus; And means for controlling the execution timing of the determined process.
[0041]
  According to this configuration,Since the processing in the information processing apparatus that affects the communication operation of the wireless communication apparatus is executed in the non-reception period of the wireless communication of the wireless communication apparatus, it is possible to avoid deterioration in communication quality due to the interference signal emitted by the information processing apparatus. it can.
[0042]
The interference wave field strength that causes a problem in actual call quality degradation can be determined by the ratio of the received signal strength of the desired signal. In general, in a radio communication apparatus, the reception error rate characteristic deteriorates unless the ratio of electric field strength (ie, S / N) is a certain value or more. For example, an error rate of 1 × 10 as transmission quality required for data transmission^-3The required Eb / N0 value to achieve Eb / N0 = 10 dB in the case of QPSK-synchronous detection. Therefore, in a wireless communication apparatus using a matched filter as a channel selection filter in the same system, it is necessary to ensure good communication characteristics that S / N ≧ 13 dB. In the present invention, the S / N degradation of the wireless communication device is calculated from the electric field strength information of the desired signal input to the wireless communication device and the electric field strength information of the interference wave, and the calculated S / N value is equal to or less than a predetermined value The corresponding processing operation is not executed.
[0043]
In addition, the electric field strength of the desired signal varies depending on the distance from the base station. In the present invention, the electric field strength information of the desired signal can be held in the storage means, and the electric field strength information of the desired signal can be updated after a certain time or whenever the information processing apparatus is changed.
[0044]
In addition, the electric field strength of the interference wave varies depending on the type of information processing apparatus connected to the wireless communication apparatus. In the present invention, the storage means for holding the electric field strength information of the interference wave is provided, and when the wireless communication device is connected to the information processing device, the electric field strength information of the interference signal can be updated according to the type of the information processing device. It is.
[0045]
From the above, according to the present invention, it is possible to determine whether to execute or not execute information processing according to the ratio of the electric field strength of the interference wave emitted by the information processing device and the electric field strength of the desired signal of the wireless communication terminal. Therefore, it is possible to avoid degradation of reception quality due to interference waves. In addition, when the electric field strength of the desired signal is large, since the execution is controlled only for some selected processes among the processes of the information processing apparatus, all the processing functions are not stopped during communication. Further, since the electric field strength information can be freely read and rewritten as necessary, good communication is possible regardless of the type and location of the information processing apparatus to be connected.
[0046]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the description will be divided into (1) to (6). (2) is an explanation of the embodiment of the present invention. Hereinafter, for convenience, (1) to (6) will be referred to as first to sixth inventions, respectively.
[0047]
(1) FIG. 1 is a block diagram showing a first embodiment of the first invention. First, the operation principle of the first embodiment of the present invention will be described with reference to FIG.
[0048]
An information processing apparatus 101 such as a portable personal computer or a portable information terminal includes a control unit 105 that controls the information processing apparatus 101 and an information processing unit 104 that performs information processing. A wireless communication device 102 including a PC card connected to the information processing device 101 includes a wireless communication unit 107 that performs wireless communication, a control unit 106 that controls the wireless communication device 102, and transmission or reception of radio waves. The antenna 108 is provided. The information processing apparatus 101 and the wireless communication apparatus 102 are connected via the signal transmission unit 103. The signal transmission unit 103 is, for example, a connector signal transmission line provided in a PC card slot of a personal computer, and connects the control unit 105 of the information processing apparatus 101 and the control unit 106 of the wireless communication apparatus 102.
[0049]
In a state where the information processing apparatus 101 and the wireless communication apparatus 102 are not connected, the information processing apparatus 101 has a normal information processing function, and the wireless communication apparatus 102 also has a wireless communication function. In a state where the information processing apparatus 101 and the wireless communication apparatus 102 are connected, the information processing apparatus 101 sends a signal for controlling the wireless communication unit 107 and an information signal in the information processing apparatus 101 to the wireless communication apparatus 102. Is possible. Further, a signal for controlling the information processing unit 104 and an information signal in the wireless communication apparatus 102 can be transmitted from the wireless communication apparatus 102 to the information processing apparatus 101.
[0050]
The operation of the information processing unit 104 of the information processing apparatus 101 is controlled by a control signal from the wireless communication apparatus 102, for example, operation stop of the information processing unit 104 or increase / decrease of the operation speed. Also, by transmitting the information signal of the information processing apparatus 101 to the wireless communication apparatus 102, the information signal in the information processing apparatus 101 can be communicated with the outside wirelessly.
[0051]
The operation of the wireless communication unit 107 of the wireless communication apparatus 102 is controlled by a control signal from the information processing apparatus 101, for example, operation stop of the wireless communication unit 107, increase / decrease in operation speed, and the like. Further, by transmitting the information signal of the wireless communication apparatus 102 to the information processing apparatus 101, it becomes possible for the wireless communication apparatus 102 to send the signal received by the antenna 108 to the information processing apparatus 101. In addition, the wireless communication apparatus 102 When the signal processing speed of the information signal is insufficient in the control unit 106, the signal processing speed of the information signal is processed by the control unit 105 of the information processing apparatus 101 that is faster than the control unit 106 of the wireless communication apparatus 102. For example, encoding at the time of data transmission or the like can be easily performed.
[0052]
In addition, as shown in FIG. 2, the control unit 105 of the information processing apparatus 101 and the wireless communication unit 107 of the wireless communication apparatus 102 may be connected via the signal transmission unit 103. There is no loss of the essence of the first embodiment. Further, as shown in FIG. 3, the information processing device 104 of the information processing device 101 and the control unit 106 of the wireless communication device 102 may be connected via the signal transmission unit 103. There is no loss of the essence of one embodiment.
[0053]
FIG. 4 is a block diagram showing a second embodiment of the present invention. The operation principle of the second embodiment of the present invention will be described with reference to FIG.
[0054]
The information processing apparatus 101 includes a control unit 105 that controls the information processing apparatus 101, an information processing unit 104 that performs information processing, and a clock signal generation unit 109 that generates a clock signal. The wireless communication apparatus 102 has the same configuration as that of the first embodiment of the present invention.
[0055]
The information processing apparatus 101 and the wireless communication apparatus 102 are connected via the signal transmission unit 103. The signal transmission unit 103 is connected to the control unit 105 of the information processing apparatus 101 and the control unit 106 of the wireless communication apparatus 102. The operation principle when the information processing apparatus 101 and the wireless communication apparatus 102 are not connected is the same as that of the first embodiment of the present invention. In a state where the information processing apparatus 101 and the wireless communication apparatus 102 are connected, the information processing apparatus 101 sends a signal for controlling the wireless communication unit 107 and an information signal in the information processing apparatus 101 to the wireless communication apparatus 102. Is possible. In addition, a signal for controlling the clock signal generator 109 and an information signal in the wireless communication apparatus 102 can be transmitted from the wireless communication apparatus 102 to the information processing apparatus 101.
[0056]
The clock signal generation device 109 of the information processing device 101 controls its operation, for example, stop of the clock generation operation of the clock signal generation device 109, increase / decrease of the operation speed of the clock generation operation, etc., according to the control signal from the wireless communication device 102 Is done. Operation principle when information signal in information processing apparatus 101 is transmitted to wireless communication apparatus 102, operation principle when control signal is transmitted to wireless communication unit 107 of wireless communication apparatus 102, and information in wireless communication apparatus 102 The principle of operation when transmitting a signal to the information processing apparatus 101 is the same as that of the first embodiment of the present invention.
[0057]
Further, as shown in FIG. 5, the control unit 105 of the information processing device 101 and the wireless communication unit 107 of the wireless communication device 102 may be connected via the signal transmission unit 103. There is no loss of the essence of the second embodiment. Furthermore, as shown in FIG. 6, the information processing unit 104 of the information processing apparatus 101 and the control unit 106 of the wireless communication apparatus 102 may be connected via the signal transmission unit 103. There is no loss of the essence of the second embodiment.
[0058]
FIG. 7 is a block diagram showing a third embodiment of the present invention. The operation principle of the third embodiment of the present invention will be described with reference to FIG.
[0059]
The information processing apparatus 101 includes a control unit 105 that controls the information processing apparatus 101, and m information processing function blocks from a first information processing function block 110 to an mth information processing function block 111. ing. Here, m is an integer of 1 or more. The wireless communication apparatus 102 has the same configuration as that of the first embodiment of the present invention.
[0060]
The information processing apparatus 101 and the wireless communication apparatus 102 are connected via the signal transmission unit 103. The signal transmission unit 103 is connected to the control unit 105 of the information processing apparatus 101 and the control unit 106 of the wireless communication apparatus 102. The operation in a state where the information processing apparatus 101 and the wireless communication apparatus 102 are not connected is the same as that of the first embodiment of the present invention. In a state where the information processing apparatus 101 and the wireless communication apparatus 102 are connected, a signal for controlling the wireless communication unit 107 and an information signal in the information processing apparatus 101 can be transmitted from the information processing apparatus 101 to the wireless communication apparatus 102. It becomes possible. The wireless communication apparatus 102 to the information processing apparatus 101 include a signal for controlling any one or more information processing function blocks from the first information processing function block 110 to the mth information processing function block 111. The information signal in the wireless communication device 102 can be transmitted.
[0061]
Arbitrary information processing function blocks from the first information processing function block 110 to the m-th information processing function block 111 of the information processing apparatus 101 are operated according to a control signal from the wireless communication apparatus 102, for example, Increase / decrease in operating speed is controlled. Operation principle when information signal in information processing apparatus 101 is transmitted to wireless communication apparatus 102, operation principle when control signal is transmitted to wireless communication unit 107 of wireless communication apparatus 102, and information in wireless communication apparatus 102 The principle of operation when transmitting a signal to the information processing apparatus 101 is the same as that of the first embodiment of the present invention.
[0062]
Further, as shown in FIG. 8, the control unit 105 of the information processing apparatus 101 and the wireless communication unit 107 of the wireless communication apparatus 102 may be connected via the signal transmission unit 103. There is no loss of the essence of the third embodiment. Furthermore, as shown in FIG. 9, the information processing function block of the information processing apparatus 101 and the control unit 106 of the wireless communication apparatus 102 may be connected via a signal transmission unit 103. There is no loss of the essence of the third embodiment.
[0063]
10 to 12 are time charts showing the first operation control of the present invention. The timing charts of FIGS. 10 to 12 can be applied when the configurations of the information processing apparatus 101 and the wireless communication apparatus 102 are FIGS. 1 to 3.
[0064]
10 to 12, the horizontal axis represents time, and the vertical axis represents the operation state of each unit. First, the wireless communication unit 107 of the wireless communication device 102 receives the time t₁ Operation starts at time t₂ Ends the operation. Time t_Three Let's start the operation again. Time t₁ To time t₂ In the period up to (hereinafter referred to as period A), the wireless communication apparatus 102 has a wireless communication function. Time t₂ To time t_Three In the period up to (hereinafter referred to as period B), the wireless communication unit 107 of the wireless communication apparatus 102 does not have a wireless communication function. The control unit 104 or the information processing unit 105 of the information processing apparatus 101 has a function of operating at an operation speed ((A + B) / B) times the operation speed when the information processing apparatus 101 operates in a normal state. ing. One or both of the control unit 104 and the information processing unit 105 of the information processing apparatus 101 stop operating in the period A and operate in the period B. In this operation principle, when the control unit 104, the information processing unit 105, or both units of the information processing apparatus 101 are operated at a normal operation speed in the period B, the information processing apparatus 101 alone performs information processing. Since the information processing speed is reduced by (B / (A + B)) times than the control unit 104, the control unit 104, the information processing unit 105, or both units of the information processing apparatus 101 are used in the period B ((A + B) By operating at / B) times, wireless communication can be performed without impairing the information processing speed when wireless communication is not performed in the information processing apparatus 101.
[0065]
FIG. 13 is a time chart showing the second operation control of the present invention. This timing chart can be applied when the configurations of the information processing apparatus 101 and the wireless communication apparatus 102 are shown in FIGS.
[0066]
In FIG. 13, the horizontal axis represents time, and the vertical axis represents the operating state of each unit. First, the operating principle of the wireless communication unit 107 of the wireless communication apparatus 102 is the same as that in FIG. The clock signal generator 109 of the information processing apparatus 101 has a function of operating at an operating speed ((A + B) / B) times the operating speed at which the information processing apparatus 101 operates in a normal state. The clock signal generator 109 of the information processing apparatus 101 stops operating in the period A and operates in the period B. In this operation principle, when the clock signal generation device 109 of the information processing apparatus 101 is operated at a normal operation speed in the period B, the information processing apparatus 101 is processed by (B / (A + B)) times as much as information processing. Since the information processing speed is reduced, information processing when wireless communication is not performed in the information processing apparatus 101 by operating the clock signal generation apparatus 109 of the information processing apparatus 101 by ((A + B) / B) times in the period B Wireless communication can be performed without losing speed.
[0067]
FIG. 14 is a time chart showing the third operation control of the present invention. This timing chart can be applied when the configurations of the information processing apparatus 101 and the wireless communication apparatus 102 are as shown in FIGS.
[0068]
In FIG. 14, the horizontal axis represents time, and the vertical axis represents the operating state of each part. The operation principle of the wireless communication unit 107 of the wireless communication apparatus 102 is the same as that in FIG. The first information processing function block 110 to the m-th information processing function block 111 of the information processing apparatus 101 are ((A + B) / B) times the operation speed at which the information processing apparatus 101 operates in a normal state. It has a function to operate with. An arbitrary plurality of information processing function blocks among the m information processing function blocks from the first information processing function block 110 to the mth information processing function block 111 of the information processing apparatus 101 operate in the period A. It stops and operates in period B. In this operation principle, in a period B, a plurality of arbitrary information processing functions among m information processing function blocks from the first information processing function block 110 to the mth information processing function block 111 of the information processing apparatus 101 When the block is operated at a normal operation speed, the information processing speed is reduced by (B / (A + B)) times as compared with information processing by the information processing apparatus 101 alone. A plurality of information processing function blocks among m information processing function blocks from the information processing function block 110 to the m-th information processing function block 111 operate at ((A + B) / B) times in the period B By doing so, wireless communication becomes possible without impairing the processing speed when the information processing apparatus 101 does not perform wireless communication.
[0069]
FIG. 15 is a block diagram showing a fourth embodiment of the present invention, and FIG. 17 is a timing chart showing its operation control. In FIG. 17, the horizontal axis represents time, and the vertical axis represents the operating state of each unit. The operation principle of the fourth embodiment of the present invention will be described with reference to these drawings.
[0070]
The configuration of the information processing apparatus 101 is the same as that of the first embodiment of the present invention. The wireless communication device 102 includes a control unit 106 that controls the wireless communication device 102, a wireless communication unit 107 that performs wireless communication, an antenna 108 that transmits or receives radio waves, and a storage device 113 that stores information. Yes. The information processing apparatus 101 and the wireless communication apparatus 102 are connected via a signal transmission unit 103.
[0071]
First, time t₁ To time t₂ (T₂ > T₁ ) (Hereinafter referred to as period T)₁ )), Only the wireless communication apparatus 102 and the other side of the wireless communication (not shown) are operating, and all the functional blocks constituting the information processing apparatus 101 are not operating. This period T₁ Wireless communication apparatus 102 that performs wireless communication and a wireless communication partner (not shown) perform wireless communication using a reference signal pattern in which a data sequence is recognized in advance, and this received signal pattern is used as a wireless communication apparatus. The reference reception signal pattern is stored in the storage device 113 of 102. Next, time t_Three To time t_Four (T_Four > T_Three ) (Hereinafter referred to as period T)₂ The first information processing function block of the information processing apparatus 101 and the other side of the wireless communication apparatus 102 (not shown) and the information processing apparatus 101 are operating. This period T₂ , Wireless communication apparatus 102 that performs wireless communication and a wireless communication partner (not shown) perform wireless communication using a reference signal pattern in which a data sequence is recognized in advance, and the received signal pattern and the wireless signal first. Comparison with the reference received signal pattern stored in the storage device 113 of the communication device 102, and the information processing function block in operation satisfies a desired wireless communication quality, such as an error rate and a signal-to-noise ratio. Determine whether to do. When the information processing function block is operating, a determination result as to whether or not a desired wireless communication quality is satisfied is stored in the storage device 113 of the wireless communication device 102. In this way, the information processing function blocks of the information processing apparatus 101 are sequentially operated, and the above determination procedure is performed on each information processing function block. Finally, time t_{2m + 1}To time t_{2m + 2}(T_{2m + 2}> T_{2m + 1}) (Hereinafter referred to as period T)_m ), The m-th information processing function block 111 of the wireless communication device 102 and the wireless communication partner and the information processing device 101 is operating._m The above determination procedure is performed at By performing the above procedure, the determination result as to whether or not the desired wireless communication quality can be satisfied when it operates for all information processing function blocks is stored in the storage device 113 of the wireless communication device 102.
[0072]
Further, the time chart of FIG. 18 may be used in place of the time chart of FIG. 17, and in this case, the essence of the fourth embodiment of the present invention is not impaired at all. The operation principle in this case will be described. In FIG. 18, the horizontal axis represents time, and the vertical axis represents the operating state of each unit.
[0073]
First, time t₁ To time t₂ (T₂ > T₁ ) (Hereinafter referred to as period T)₁ The operating principle is the same as in FIG. Next, time t_Three To time t_Four (T_Four > T_Three ) (Hereinafter referred to as period T)₂ In FIG. 4A, a plurality of arbitrary information processing function blocks of the wireless communication device 102, a wireless communication partner (not shown), and the information processing device 101 are operating. In this period T2, wireless communication is performed using a reference signal pattern in which both the wireless communication apparatus 102 that performs wireless communication and the wireless communication partner (not shown) recognize the data series in advance, and this received signal pattern and A comparison is made with the reference received signal pattern previously stored in the storage device 113 of the wireless communication apparatus 102, and the operating information processing function block has a desired wireless communication quality such as an error rate or a signal-to-noise ratio. It is determined whether or not the above is satisfied. When the information processing function block is operating, a determination result as to whether or not a desired wireless communication quality is satisfied is stored in the storage device 113 of the wireless communication device 102. However, any plurality of information processing function blocks of the information processing apparatus 101 do not operate at the same timing. For example, time t_Three To time t₃₁(T_Three <T₃₁<T_Four ), Only the first information processing function block of the information processing apparatus 101 operates and the time t₃₁To time t₃₂(T₃₁<T₃₂<T_Four ), Only the second information processing function block of the information processing apparatus 101 operates and the time t₃₂To time t_Four Only the third information processing function block of the information processing apparatus 101 operates. Since the time required to determine whether or not the wireless communication quality is satisfied when each information processing function block operates is often different depending on each information processing function block, the information processing apparatus can be used by using such a method. When each of the information processing function blocks 101 operates, it is possible to shorten the time required to determine whether or not the radio call quality is satisfied. In this manner, the information processing function blocks of the information processing apparatus 101 are sequentially operated, and finally the time t_{2l + 1}To time t_{2l + 2}(T_{2l + 2}> T_{2l + 1}) (Hereinafter referred to as period T)_l (Where l is an integer from 1 to m). By performing the above procedure, when each information processing function block operates for all information processing function blocks, a determination result as to whether or not a desired wireless communication quality is satisfied is stored in the storage device 113 of the wireless communication device 102. I can remember. Further, as shown in FIG. 16, the information processing apparatus 101 and the wireless communication apparatus 102 are configured such that the information processing apparatus 101 has a control unit 105 that controls the information processing apparatus 101 and an information processing function block 104 that performs information processing. In this case, the determination result can be stored in the storage device 112, so that the essence of the present invention is not impaired at all. Further, the configuration of the information processing apparatus 101 and the wireless communication apparatus 102 is configured by adding a storage device 112 that stores information in the information processing apparatus 101 with the configuration illustrated in FIGS. May be added, and in this case as well, the essence of the present invention is not impaired.
[0074]
FIG. 19 is a flowchart showing another operation control process of the present invention. In this flowchart, the information communication apparatus 101 and the wireless communication apparatus 102 are configured as shown in FIG. 15, FIG. 16, and the storage apparatus 112 that stores information in the information processing apparatus 101 in the configurations shown in FIGS. The present invention can be applied to a configuration to be added or a configuration to add a storage device 113 that stores information in the wireless communication device 102.
[0075]
First, the operation of the information processing apparatus 101 is stopped, and a data sequence is preliminarily transmitted between the wireless communication apparatus 102 and a wireless communication partner (not shown) such as a base station of a wireless communication system. Wireless communication is performed using the reference signal pattern recognized in the above, and the received power level of the received signal and the wireless communication quality in the radio wave environment where the wireless communication device 102 is placed are tested, for example, the error rate and the signal-to-noise ratio. This is stored as a reference received signal pattern in the storage device 113 of the wireless communication device 102 (steps A1 to A3).
[0076]
Next, the first information processing function block of the information processing apparatus 101 is operated to perform wireless communication between the wireless communication apparatus 102 and a wireless communication partner (not shown) using the above reference signal pattern, The received signal pattern at this time is compared with the reference received signal pattern stored in the storage device 113 of the wireless communication apparatus 102 (steps A4 to A7). Then, the reception level and the determination result are stored in the storage device 113 (step A8). For example, if the result of the comparison does not satisfy a desired wireless communication quality, such as an error rate or a signal-to-noise ratio, this information processing function in the information processing apparatus 101 is performed when the wireless communication apparatus 102 performs wireless communication. A control signal for instructing the block to stop the operation is generated and stored in the storage device 113 of the wireless communication device 102.
[0077]
This procedure is performed for all information processing function blocks in the information processing apparatus 101 (steps A9 and A10). Next, the transmission power level or the like on the other side of the wireless communication device (not shown) is changed with respect to the wireless communication device 102 so that the wireless communication device 102 has a radio wave environment that has a different reception power level. The wireless communication is performed and the same procedure is repeated (steps A11 and A12). As this method, for example, there is the method of FIG. 17 or 18 of the present invention.
[0078]
Information processing function blocks that cannot satisfy a desired wireless communication quality, such as an error rate or a signal-to-noise ratio when wireless communication is performed for all reception power levels determined in advance are stored in the wireless communication apparatus 102. This is stored in the device 113. As information stored in the storage device 113 of the wireless communication apparatus 102, for example, there is information as shown in FIG.
[0079]
In a different radio wave environment, for example, when the position of the wireless communication device 102 changes, the above procedure is repeated, and a desired wireless communication quality, for example, when performing wireless communication for all predetermined received power levels, for example, Information processing function blocks that cannot satisfy the error rate, signal-to-noise ratio, and the like are stored in the storage device 113 of the wireless communication device 102. As a means for monitoring changes in the radio wave environment, for example, the position of the wireless communication device 102 has changed, for example, wireless communication is performed with a wireless communication partner (not shown) using the above-described reference signal pattern at regular time intervals. There are a method for performing communication, a method for performing the above procedure when a request is made from the wireless communication apparatus 102, a method for performing the above procedure when a request is made from a partner of wireless communication (not shown), and the like.
[0080]
FIG. 21 is a block diagram showing a fifth embodiment of the present invention, and FIG. 23 is a flowchart showing an operation control process applied thereto. The fifth embodiment of the present invention will be described with reference to these drawings.
[0081]
The information processing apparatus 101 includes an information processing unit 104 that performs information processing, a control unit 105 that controls the information processing apparatus 101, an information output device 114 that outputs information, and an information input device 115 that inputs information. Yes. The wireless communication apparatus 102 has the same configuration as that of the first embodiment of the present invention.
[0082]
First, the function of the information processing apparatus 101 output to the information output apparatus 114 of the information processing apparatus 101, such as a display, is selected using the information input apparatus 115 of the information processing apparatus 101, such as a keyboard or a mouse (step A21). ). The control unit 105 of the information processing apparatus 101 changes the function of the information processing unit 104 of the information processing apparatus 101 to a desired information processing function such as a personal computer or a word processor based on information input from the information input apparatus 115 of the information processing apparatus 101. To control. Next, if necessary, the function of the wireless communication device 102 output to the information output device 114 of the information processing device 101, such as a display, is used using the information input device 115 of the information processing device 101, such as a keyboard or a mouse. (Steps A22 and A23). The control unit 105 of the information processing device 101 is based on the information input from the information input device 115 of the information processing device 101 and the wireless communication unit 107 of the wireless communication device 102 via the signal transmission unit 103 and the control unit 106 of the wireless communication device 102. Are controlled so as to become a desired wireless communication function, for example, a digital cellular phone or a digital cordless phone. After selecting the information processing function of the information processing apparatus 101 and the wireless communication function of the wireless communication apparatus 102 using the above procedure, a desired wireless communication quality, such as an error rate or signal pair, for example, by the method shown in FIGS. In order to satisfy the noise ratio and the like, an information processing unit to be operated when performing wireless communication and an information processing unit to stop the operation are determined (step A24). The operation of each information processing function block of the information processing apparatus 101 is controlled by software by the above method (steps A25 and A26).
[0083]
Further, as shown in FIG. 22, the information processing apparatus 101 and the wireless communication apparatus 102 have the same structure as that of the first embodiment of the present invention, and the wireless communication apparatus 102 controls the wireless communication apparatus 102. The control unit 106, a wireless communication unit 107 that performs wireless communication, an antenna 108 that transmits or receives radio waves, an information output device 117 that outputs information, and an information input device 116 that inputs information may be included. In this case, the essence of the fifth embodiment of the present invention is not impaired. Further, the information processing apparatus 101 and the wireless communication apparatus 102 are configured as shown in FIGS. 2 to 9, and FIGS. 16 and 17, and the information processing apparatus 101 is the information output apparatus 114 and the information input apparatus 115 or the wireless communication apparatus. The information output device 117 and the information input device 116 may be added to the device 102. In this case, the essence of the fifth embodiment of the present invention is not impaired. In this case, in the procedure for selecting the functions of the information processing apparatus 101 and the wireless communication apparatus 102 described above, the information of the wireless communication apparatus 102 instead of the information output apparatus 114, the information input apparatus 115, and the control unit 105 of the information processing apparatus 101 is used. In this method, the output device 117, the information input device 116, and the control unit 106 are used. The control unit 106 of the wireless communication device 102 performs the function of the information processing unit 104 of the information processing device 101 and the function of the wireless communication unit 107 of the wireless communication device 102. It becomes the structure to control.
[0084]
Also, as in the procedure shown in the flowchart of FIG. 24 (steps A31 to A36), the function of the wireless communication apparatus 102 may be selected first, and the function of the information processing apparatus 101 may be selected later. There is no loss of the essence of the fifth embodiment of the invention.
[0085]
The operation principle of the sixth embodiment of the present invention will be described with reference to FIGS.
[0086]
The control unit 106 of the wireless communication apparatus 102 has a function of notifying the information processing apparatus 101 of the operation state of the wireless communication apparatus 102, for example, the reception state, the transmission state, and the idle state via the signal transmission unit 103. .
[0087]
Based on this notification, the information processing apparatus 101 controls the operation of each information processing function block of the information processing unit 104, for example, stops the operation or increases / decreases the operation speed. As a method of setting each information processing function block in the information processing apparatus 101 to an operation state that satisfies a desired wireless communication quality, for example, an error rate and a signal-to-noise ratio, there are, for example, those shown in FIGS. The information processing apparatus 101 and the wireless communication apparatus 102 are configured as shown in FIGS. 1 to 9 and FIGS. 1 to 9, respectively. The information processing apparatus 101 stores information and the wireless communication apparatus 102 stores information. In this case, the essence of the sixth embodiment of the present invention is not impaired.
[0088]
As described above, according to the first invention, when information processing apparatus 101 is connected to, for example, a PC card type wireless communication apparatus 102 and information communication is performed via a wireless line, the wireless communication frequency band is entered. The influence of unnecessary radiation of the information processing apparatus 101 can be avoided, and information communication can be performed while satisfying a desired wireless communication quality such as a signal-to-noise ratio and an error rate.
[0089]
In addition, by connecting information processing apparatus 101 and wireless communication apparatus 102 and performing information communication via a wireless line, the position of information processing apparatus 101 is compared to the case where information communication is performed via a conventional wired line. The restriction of becomes very small.
[0090]
In addition, since the connection between the information processing apparatus 101 and, for example, the PC card type wireless communication apparatus 102 is based on the PCMCIA standard which is an international standard, there is no restriction on the type of the information processing apparatus 101 and the type of the wireless communication apparatus 102. Since the wireless communication frequency and information transmission speed of the wireless communication apparatus 102 can be freely selected and a wireless communication system being serviced at the position where the information processing apparatus 102 is placed can be used, restrictions on the position of the information processing apparatus 102 Is very small and versatility increases dramatically.
[0091]
(2) Next, a control procedure for executing processing suppression in the information processing apparatus will be described as a first embodiment of the second invention.
[0092]
In this embodiment, the information processing apparatus has a problem in securing good communication characteristics from the received electric field strength of a desired signal that should be received by the wireless communication apparatus and the electric field intensity of the interference wave generated from the information processing apparatus. Only processing is controlled. That is, the electric field strength of the interference wave generated according to the processing of the information processing apparatus is different. FIG. 30 shows the frequency spectrum of the interference wave. When the fluctuation of the radio wave environment in the information processing device is received by the antenna of the wireless communication device, the two types of interference waves shown in the figure are observed. That is, white noise 400 and CW 401. The electric field strength of the signal can be expressed by an integral value of an instantaneous level within a given frequency band. If the electric field intensity of the interference wave is N, N varies depending on the processing content in the information processing apparatus. Here, processing refers to normal information processing operations such as a DRAM refresh operation, an access sequence, and a keyboard reading sequence.
[0093]
The interference wave electric field strength that causes deterioration of the quality of radio communication can be determined by the ratio with the received electric field strength of the desired signal. Hereinafter, this will be described with reference to FIG. In FIG. 31, the electric field strengths of the desired signals 411 and 413 are S [dB μ], and the electric field strengths of the interference waves 412 and 414 are N [dB μ]. S and N are integral values of the instantaneous electric field strength from the frequency fa to fb. In general, in a radio communication apparatus, the reception error rate characteristic deteriorates unless the ratio of electric field strength (ie, S / N) is a certain value or more. For example, an error rate of 1 × 10 as transmission quality required for data transmission^-3The required Eb / N0 value to achieve Eb / N0 = 10 dB in the case of QPSK-synchronous detection. Therefore, in a wireless communication apparatus using a matched filter as a channel selection filter in the same system, it is necessary to ensure good communication characteristics that S / N ≧ 13 dB.
[0094]
In the second invention, the S / N degradation of the wireless communication device is calculated from the electric field strength information of the desired signal input to the wireless communication device and the electric field strength information of the interference wave, and the calculated S / N value is equal to or less than a predetermined value. If it is, the corresponding processing operation is not executed. That is, according to the second invention, as shown in FIG. 31A, when the electric field strength of the desired signal is sufficiently large with respect to the interference wave, it is possible to maintain good transmission quality even in the presence of the interference wave. It is determined that the process for generating the interference wave 412 is executable. On the other hand, as shown in FIG. 31B, when the electric field intensity of the interference wave is large, it is assumed that the process for generating the interference wave 414 cannot be executed.
[0095]
FIG. 25 shows a flowchart of a basic control procedure used in the second invention.
[0096]
Here, a memory circuit for storing the electric field strength information of the interference wave is prepared. The interference wave is generated due to processing execution in an information processing apparatus such as a personal computer, and the electric field strength varies depending on the processing to be executed. Therefore, when the memory circuit is composed of RAM and ROM, it is preferable to have different addresses for each process. Hereinafter, the procedure of the present embodiment will be described.
[0097]
The data held in the memory circuit can be read, rewritten, and erased as necessary. In this embodiment, an example of reading will be described.
[0098]
First, an address (i) of data to be read from the storage circuit is designated, and desired data (here, information on the electric field strength of the interference wave) is read (step B10). Next, the difference value (S−Ni) between the electric field intensity (Ni [dB]) of the read interference wave and the reception electric field intensity (S [dB]) of the desired signal detected in advance is taken, and the difference value The design of the wireless communication device is compared with a fixed value x determined from the system side (step S12). When the calculated difference value is larger than a certain value, it is determined that the electric field strength of the desired signal is sufficiently large, and it is determined that the process i can be performed when the desired signal is received (step B13). On the other hand, when the calculated difference value is smaller than a certain value, it is determined that the reception quality is deteriorated due to the execution of the process i, and it is determined that the process i cannot be executed when the desired signal is received (step B14).
[0099]
The processing address (i) determined to be unexecutable here is held in another storage circuit as non-executable processing information (step B15).
[0100]
Finally, the values of the current processing address (i) and the number of addresses (k) are compared (step B16). If they do not match, the address is incremented (i = i + 1) (step B11), and the new data is used again. Processing is performed according to the procedure of this embodiment.
[0101]
On the other hand, if the current processing address (i) matches the number of addresses (k), the process ends.
[0102]
When a series of processing is completed, the storage circuit stores the types of processing that should not be executed simultaneously when the desired signal is received. By informing the information processing apparatus of such processing information from the wireless communication end device constituted by a PC card or the like, it is possible to suppress the corresponding processing in the information processing apparatus.
[0103]
Next, with reference to FIG. 26, a configuration of a connection unit between the wireless communication apparatus and the information processing apparatus necessary for executing the control procedure shown in FIG. 25 will be described.
[0104]
In this configuration example, the wireless communication device detects the electric field strength of the desired signal, and the electric field strength of the interference wave is described when it is transferred by the information processing device.
[0105]
A band-limited filter (band-pass filter) 220 extracts a signal within a desired band from the radio signal received by the antenna. Then, the amplitude component of the in-band signal is detected by the integration operation of the reception electric field strength detection circuit 221 attached to the subsequent stage of the band limiting filter, and is digitized by the ADC (AD converter) 201, and then the RAM The data is held in the memory circuit 222 formed of a register or the like. By holding the received electric field strength information in the storage circuit 22 in this way, it can be read out when necessary by the clock 227 mounted in the wireless communication apparatus.
[0106]
On the other hand, the electric field strength information of the interference wave is output from the wireless communication terminal connection unit 229 of the information processing device and is input to the wireless communication device through the information processing connection unit 128 of the wireless communication device. Here, the information processing connection unit 228 can be composed of a bidirectional buffer, an address decoder, a latch, and the like. The electric field strength information of the interference wave that has passed through the information processing connection unit 228 is k data series each composed of a processing address (i) and data (Ni). These are written into the storage circuit 223 before the start of processing, and are sequentially taken into the CPU 224 according to an address read command controlled by the clock 227 and the CPU 224 as necessary.
[0107]
The CPU 224 takes in the received field intensity information of the desired wave and the field intensity information of the interference wave, and performs comparison and determination operations according to the procedure described in FIG. As a result of the determination in the CPU 224, for the processing determined to be unexecutable, an address and processing data are recreated for the processing address, transferred to the storage circuit 225 by the CPU internal clock, and stored there. . After the determination for all the data series is completed, the read clock 226 is activated under the control of the CPU 24, and the execution processing group held in the storage circuit 25 is transferred from the wireless communication apparatus to the information processing apparatus through the connection units 228 and 229. Forward to.
[0108]
In this embodiment, the CPU 224 can be configured using a DSP. In addition, although the memory circuits 223 and 225 are divided into two for the sake of explanation, they may be shared for realization.
[0109]
In this configuration example, the case where the wireless communication device detects the electric field strength of the desired signal and the information processing device transfers the electric field strength information of the interference wave has been described. However, the fluctuation of the wireless communication line is slow, and the TDD is further reduced. When used, the base station can detect the electric field strength of the desired signal. In this case, the electric field strength information is preferably included as part of the normal signal transmitted from the base station.
[0110]
Further, a method of detecting the electric field strength of the interference wave with the wireless communication device itself can be considered. This will be explained in another embodiment.
[0111]
Next, with reference to the timing chart of FIG. 27, the reading operation of the electric field intensity information of the desired wave and the electric field intensity information of the interference wave will be described.
[0112]
In FIG. 27, the electric field strength information (S) of the desired signal and the electric field strength information of the interference wave are described as 330 and 331.
[0113]
The electric field intensity information 331 of the interference wave can be read at the edge timing of the read clock 332. One procedure is completed within a period of one cycle of the clock frequency of the clock 332. In this example, it is determined that the processes k + 1, k + 2, and k + 4 cannot be executed. In this case, the CPU 224 (or DSP) in FIG. 26 inputs the write enable signal 333, the re-created address signal 334, the clock 338, and the write data 339 to the storage circuit 225.
[0114]
In the case where the memory circuit 225 is constituted by a RAM, the stored data is read out as 337 by inputting a read address 335 in synchronization with the clock 336.
[0115]
Next, operations of the wireless communication apparatus and the information processing apparatus when it is determined that execution is not possible will be described with reference to the timing chart of FIG.
[0116]
Here, it is assumed that the wireless communication apparatus performs communication by TDMA. In addition, processing control is executed by transmitting a communication slot indicator to the information processing device in real time from the wireless communication device.
[0117]
In FIG. 28, 341 indicates a communication period of the wireless communication apparatus. Communication with the base station is performed in the shaded area in the figure. In the case of TDMA, the wireless communication apparatus normally communicates for T1 time every time T2. Therefore, in the case of FIG. 28, the processing execution of the information processing apparatus is restricted with respect to the processing in the section of the shaded area 341. When processing is not restricted, processing is normally executed as in 342 and 343. When it is determined that the process 342 is not executable and the process 343 is executable according to the procedure shown in the first embodiment of the present invention, the information processing apparatus is indicated by 28 and 29 in FIG. 26 from the wireless communication terminal. The slot indicator 344 transmitted through the connection unit is used to divide one continuous process 342 and the communication slot indicator 44 executes the process in the L section, that is, the non-reception section of the wireless communication, as indicated by 345. . The process 343 is not controlled because the process in the reception section is possible. In the present embodiment, the processing control example is for processing that is sufficiently longer than the reception interval. However, if the time is shorter than the reception interval, the processing start time to be executed is delayed instead of the division processing. Delay control is sufficient.
[0118]
Further, in this embodiment, the communication slot indicator is ahead by τ time from the time when communication is actually started. This is an information processing apparatus from when the communication slot indicator is transmitted until the actual control is performed. The delay time is taken into consideration, and takes different values depending on the implementation method.
[0119]
Next, a configuration example of the interference wave field strength information storage circuit is shown in FIG. 29A, and to the wireless communication terminal for interference wave field strength information when the storage circuit as shown in FIG. 29A is not provided. An example of the transmission procedure is shown in FIG.
[0120]
FIG. 29A is a list showing field intensity information of interference waves generated by processing in the information processing apparatus. The processing (T1, T2,..., Tk) is, for example, a DRAM refresh operation, a ROM or RAM access sequence, a keyboard reading sequence, or the like. The electric field intensity (N11, N12,...) Of the interference wave in each processing execution is a result measured in advance, and may be stored in the wireless communication device or stored in the information processing device. good. The models (P1, P2,..., Pl) in the table are types of information processing apparatuses connected to the wireless communication apparatus. This may be sent from the information processing device when measuring the electric field strength information of the interference wave, or stored in advance in the wireless communication device when the information processing device used is limited It may be a thing.
[0121]
In general, it is considered that the field strength information of the interference wave varies depending on the model. By having the field strength information for each model as shown in the table, the field strength information corresponding to each process only by notifying the model of the information processing device As you can see, there is a big advantage in terms of easy access. When a storage element for storing the table shown in FIG. 29A is provided in the wireless communication terminal, it is disadvantageous in terms of circuit scale. Therefore, it is convenient to create the storage element that stores the table shown in FIG. 29A as a RAM card used in the information processing apparatus. Further, in order to realize a smaller circuit in the wireless communication apparatus, it is possible to consider means for having the information processing apparatus transmit the electric field strength information of the interference wave at the start of communication and storing the transmission information. An example of a connection procedure between the wireless communication apparatus and the information processing apparatus in this case is shown in FIG.
[0122]
In this configuration example, since the information processing apparatus that has received the write command notifies the wireless communication apparatus of the maximum number of processes (k), the maximum value (k) of the number of addresses in the wireless communication apparatus is determined. If the number of addresses input from the wireless communication device is incorrect, notification is made again, and when it is correct, the field strength information corresponding to the processing address is transferred from the information processing device to the wireless communication device. The transferred data is stored in the storage device according to the address, and confirmation information is sent back. As a result of this series of operations, the memory circuit in the wireless communication device does not have to have an address for each model as shown in FIG. 29A, which is effective for downsizing the wireless communication device. Further, in this embodiment, when changing the information processing apparatus to be connected, the previous information is cleared and can be written again by the procedure shown in FIG.
[0123]
As described above, according to the second invention, the generation of an interference wave that becomes a problem when communicating with the base station in a state where the wireless communication apparatus is directly connected to the information processing apparatus Can be controlled according to the difference (or ratio) of the electric field strength between the interference wave and the interference wave, so that it is possible to avoid deterioration of the reception quality and to minimize the burden on the information processing apparatus for ensuring the quality. Become.
[0124]
(3) Next, an embodiment of the information processing apparatus according to the third invention will be described with reference to FIGS.
[0125]
First, the basic configuration of the information processing apparatus will be described with reference to FIG. As shown in FIG. 37, the information processing apparatus includes a reference signal generator 601, a frequency dividing circuit 602, a reference signal generating unit 603 that generates a reference signal necessary for the information processing circuit, a CPU 604, a ROM 605, An information processing circuit unit 609 including a DRAM 606, a VRAM 607, a gate array circuit and a control circuit 608, and a man-machine interface unit including an LCD display 610, a keyboard switch 611, and interface circuits 612 and 613 thereof. 614, a floppy disk control unit 615 for driving a floppy disk, and an external interface unit 616 for connecting to other terminals, networks, radio units, etc., and connected to this information processing apparatus. Wireless communication Device 621 includes a receiving circuit 617, transmission circuit 618, a radio controller 619 for controlling them, and a an antenna 620.
[0126]
The information processing apparatus is a personal computer or a portable terminal such as a PDA, and the wireless communication apparatus 621 is a PC card attached to the personal computer or a wireless communication unit built in the portable terminal.
[0127]
Next, with reference to FIG. 32, the configuration of the information processing apparatus of the present invention will be specifically described.
[0128]
This information processing apparatus includes a reference signal generator 501 and a reference signal generator 503 that generates a reference signal necessary for the information processing circuit, a CPU 504, a ROM 505, and a DRAM 506, as in FIG. , An information processing circuit unit 509 including a VRAM 507, a gate array circuit and a control circuit 508, and a man-machine interface unit 514 including an LCD display 510, a keyboard switch 511, and interface circuits 512 and 513 therefor. A floppy disk control unit 515 for driving a floppy disk, and an external interface unit 516 for connecting to another terminal, a network, a wireless unit, etc., and further, a reference signal generation unit 501 Minutes For controlling the frequency division number of the vessel 502, a frequency dividing number control circuit 524, and a frequency determining circuit 525 for comparing the frequency of the harmonic components of the radio frequency and the reference signal and the reference signal. Below, the advantage provided with this frequency division number control circuit will be described while following the flow of signals.
[0129]
A reference signal generator 501 such as a crystal resonator or a crystal oscillator provided in the reference signal generation unit 503 generates a first reference signal 522. The generated first reference signal 522 is also frequency-divided by the frequency divider 502 of the reference signal generation unit 503, so that the second information required by the information processing circuit unit 509 and the man-machine interface unit 514 is obtained. The frequency is converted to a third reference signal 523.
[0130]
The information processing circuit unit 509 drives the CPU 504, the ROM 505, the DRAM 506, the VRAM 507 and the like using the second, third,... Reference signals 523 generated by the frequency divider 102. The man-machine interface unit 514 It drives circuits and components such as output and input to humans such as the LCD interface 512, the LCD 510, and the keyboard interface 513.
[0131]
Next, a signal flow when data in the information processing apparatus is transmitted wirelessly will be described.
[0132]
When data is transmitted wirelessly to another information processing apparatus or the like, the data in the information processing circuit unit 509 is transmitted to the wireless communication apparatus 521 via the external interface unit 516. The transmission circuit 518 in the wireless communication apparatus 521 modulates the transmitted data as a modulation signal, and then converts the data into a signal in a radio frequency band of several hundred MHz to several GHz, or several tens GHz depending on the system, and the antenna 520. To other terminals or base stations on the network. Next, when receiving data from another terminal, a receiving circuit that receives a radio frequency band signal from another terminal or a base station on the network via the antenna 120 and is represented by a superheterodyne system. The frequency is converted into a baseband signal via 517 and input to the information processing circuit unit 509 via the external interface unit 516 as data. The information processing circuit unit 509 performs necessary signal processing on these data and sends the data to the man-machine interface unit 514, various memories 505, 506, 507, and the like.
[0133]
However, in the information processing device, the reference signal and the integral multiple of the reference signal are derived from signal wiring and ground wiring on the circuit board, various IC bodies, floppy disk drives and flexible cables used to connect the display screen to the circuit board. Signal, that is, unnecessary radiation of a harmonic signal is generated. The frequency spectrum of this unnecessary radiation is shown in FIG. In FIG. 33, the horizontal axis represents frequency and the vertical axis represents the level of unwanted radiation. In general, a spectrum of a harmonic signal is generated as shown in the figure at a frequency interval of the reference signal on the basis of the spectrum of the reference signal of about several MHz.
[0134]
When the wireless communication device 521 is provided in the information processing apparatus in which such unnecessary radiation is mixed, the unnecessary radiation is mixed into the wireless circuit via the antenna 520 of the wireless communication device 521 or a signal line on the circuit board. . As a specific example, it is conceivable that these unnecessary radiations are received by the antenna 520 of the wireless communication apparatus 521, mixed into the receiving circuit 517, and superimposed on the radio frequency band. An example of the frequency spectrum at this time is shown in FIG. 34. As shown in FIG. 34, the level of the radio frequency signal is smaller than the level of the unwanted radiation signal in the information processing apparatus, and depending on the case, the radio signal is canceled by the unwanted radiation and cannot be received or received. It is conceivable that the error rate increases.
[0135]
With respect to this problem, in the information processing apparatus of the present invention, attention is paid to the fact that the unwanted radiation is a harmonic signal of the reference signal in the information processing apparatus, and the reference signal or its harmonic component is not superimposed on the radio frequency band. As described above, a means for controlling the frequency of the reference signal is provided. The specific algorithm and signal flow are described below.
[0136]
When a wireless circuit is established between the wireless communication device 521 of the information processing device and another terminal or a base station on the network, the information processing device of the present invention uses the reference in the information processing device according to the algorithm shown in FIG. After controlling the signal, normal wireless communication is started.
[0137]
That is, the wireless unit communication device 521 uses the frequency (f_RF) Is transmitted to the frequency determination circuit 525 in the information processing circuit 509 via the external interface unit 516 in the information processing apparatus (steps C1 and C2). The frequency determination circuit 525 generates a frequency (nf) of the reference signal or its harmonic signal.₀ , N = 0, 1, 2,... Is the radio frequency (f_RF) Is determined (step C3). If f_RFAnd nf₀ Match (f_RF= Nf₀ ) The frequency determination circuit 525 sends an instruction to change the frequency division number of the frequency divider circuit 502 to the frequency division number control circuit 524 (step C4).
[0138]
The frequency dividing number control circuit 524 changes the frequency dividing number of the frequency dividing circuit 502, and as a result, the frequency of the second reference signal 523 is changed (steps C5 and C6), and therefore the frequency of the harmonic component changes. , Nf₀ Is f_RFCan be prevented from being superimposed on.
[0139]
As described above, it is possible to always perform stable wireless communication by changing the frequency of the reference signal that causes unnecessary radiation. FIG. 36 is a frequency spectrum showing how the frequency of the reference signal described above is changed. By changing the frequency division number, the spectrum of the harmonic signal that has been a problem before the change is as shown in FIG. The frequency can be changed so as not to affect the radio frequency signal.
[0140]
In the configuration of the present invention described above, when the wireless communication function is provided in the information processing apparatus, the wireless card provided in the PCMCIA compatible card, for example, is connected to the information processing apparatus via the connector. In either case, stable wireless communication can be realized in either form.
[0141]
In the embodiment of the present invention, the frequency division number is changed if necessary by comparing the frequencies in advance. For example, the reception error rate is detected using a known signal or the like, and the error rate is calculated. When the frequency is larger, the frequency of the reference signal can be changed by controlling the frequency division number.
[0142]
As described above, in the information processing apparatus of the present invention, at least in the time zone in which the wireless communication function performs wireless communication, the frequency of the reference signal and an integer multiple thereof, that is, the harmonic signal of the reference signal performs wireless communication. By changing the frequency dividing number of the frequency dividing circuit 502 that generates the reference signal so as not to coincide with the radio frequency for the reference signal, unnecessary radiation of the reference signal and its harmonic signal in the information processing apparatus interferes with the radio frequency. Can not be given. Therefore, even if an information processing apparatus having unnecessary radiation of the reference signal and its harmonic signal is provided with a wireless communication function, stable wireless communication can be performed without being affected by the unnecessary radiation.
[0143]
(4) Next, the fourth invention will be described with reference to FIGS.
[0144]
First, with reference to FIG. 42, the configuration and operation of the information processing apparatus according to the fourth invention and the wireless communication apparatus used by being inserted into the information processing apparatus, and the method for attenuating spurious signals and thermal noise radiated from the information processing apparatus will be described. explain.
[0145]
A wireless communication device 9002 composed of a PC card or the like is inserted into the information processing device 9001, and the wireless communication device 9002 performs transmission / reception with a wireless base station using a transmission / reception antenna 9006. If the reception is described, the received signal is demodulated by the radio unit 9005. The TDMA unit 9004 controls transmission / reception time slots. Here, 9007 is a reference clock for TDMA. The wireless communication apparatus 9002 and the information processing apparatus 9001 are connected via an interface unit 9009 so that control data can be exchanged. The information processing apparatus 9001 includes a keyboard 9003, a command processing unit 9011 including a keyboard input device that processes commands input from the keyboard, a control unit 9010 that mainly controls the wireless communication device 9002, a memory 9013, and a power supply 9015. Each block is normally connected with a reference clock (9008, 9012, 9014).
[0146]
The information processing apparatus 9001 determines which instruction is processed by an instruction processing unit 9011 that processes an instruction input to the keyboard 9003 by a normal user, and reads from the memory 9013 how much noise is generated when the input instruction is executed. . In general, the information processing apparatus 9001 generates a lot of noise at the time of keyboard input, access to ROM, RAM, high-speed operation of a microcomputer, etc., and how much noise is generated depending on the type of these instructions. Such information is measured in advance for an information processing apparatus of the same model and written in the memory 9013. When the information processing apparatus is actually used, it is determined whether the instruction generates a lot of noise or the instruction that does not generate noise by reading the key hit by the user and searching the information in the memory 9013. Of course, when any instruction is executed, it is determined that noise is always generated, and the above measures may be taken regardless of the type of instruction. In this case, the instruction is generated when the instruction is executed. The memory 9013 for storing the noise information can be omitted.
[0147]
The control unit 9010 executes and executes the “instructions for generating noise” and the “instructions for not generating noise” based on the transmission / reception slot timing information transmitted from the TDMA processing unit 9004 of the wireless communication apparatus 9002. Control time. That is, at a time when an interference wave should not be generated from the information processing apparatus 9001 (see the next embodiment), a noisy instruction is temporarily stopped and an instruction with less noise is executed first. Stop all instructions, stop oscillation of the reference clocks 9008, 9012, 9014 generating spurious signals, that is, stop the operation of blocks using these reference oscillators, or an information processing device Measures such as turning off the power supply 9015 of 9001 are taken to prevent radio wave interference with the wireless communication device 9002.
[0148]
In the following description, reducing noise and interference waves radiated from an information processing terminal or controlling to reduce interference waves means performing such an operation.
[0149]
Next, an embodiment of the basic operation of the information processing apparatus 9001, the wireless communication apparatus 9002 connected thereto, and the wireless communication system using the same according to the present invention will be described with reference to FIG.
[0150]
Reference numeral 1001 denotes a time slot on the base station side, and this time slot is composed of two types of transmission slots (TX) and reception slots (RX). Reference numeral 1002 denotes a time slot of the wireless communication apparatus 9002 that performs wireless communication with the base station. Here, the base station and the wireless communication device 9002 time-divide the time slot and perform TDMA communication or TDD (Time Division) in which communication is performed from the base station to the wireless terminal in the time slot 1010 and from the wireless terminal to the base station in the time slot 1011. Duplex) communication is performed, and the wireless communication apparatus is normally in a battery saving state at times other than these time slots (time slots other than transmission / reception: 1012). When the time slots 1010 and 1011 for performing transmission / reception enter a communication state, the time slot used for transmission / reception has a fixed period, and the time of the next time slot is known in advance for both the base station and the wireless terminal.
[0151]
In the information processing apparatus 9001 and the wireless communication apparatus 9002 according to the present invention, means for reducing spurious signals and noise radiated from the information processing apparatus 9001 in which the wireless communication apparatus 9002 is inserted in this time slot. It is characterized by having. The wireless communication apparatus 9002 sends a control signal 1003 to the inside of the information processing apparatus 9001 immediately before the slots 1010 and 1011 where transmission and reception are performed, and the level of the interference wave 1004 generated from the inside of the information processing apparatus 9001 is determined by this signal. Decrease (1009). In the example of FIG. 38, when the control signal 1003 is High (1005), it is a portion that allows spurious and thermal noise (hereinafter referred to as interference wave) inside the information processing apparatus 9001 to occur, and when the control signal 1003 is Low ( 1006 and 1007) are parts that require a reduction in the generation of interference waves.
[0152]
For example, immediately before the slot 1010 in which transmission from the base station to the wireless communication device 9002 is performed, the control signal 1033 changes from High to Low (1006), and when the wireless communication device 9002 is in a reception state, an interference wave is transmitted from the information processing device 9001. Operate to reduce (1009). Also, in the case where transmission from the wireless communication apparatus 9002 to the base station is performed (1011), the control signal 1033 becomes Low (1007) and operates so as to reduce the interference wave from the information processing apparatus 9001.
[0153]
On the other hand, when the wireless terminal is in a battery saving operation state (1012), since communication with the base station is not performed, the control signal becomes High (1005) and an interference wave is generated from the information processing apparatus 9001. It is possible to make it possible (1008).
[0154]
In the above description, the state in which an interference wave is generated from the information processing apparatus 9001 means that the information processing apparatus 9001 is in an operating state, that is, the user of the information processing apparatus 9001 uses the keyboard 9003. This is a case where the information processing apparatus 9001 is in an operating state (calculation, memory reading, memory reading) by a beating state or a user operation. Here, in the normal TDMA system or TDD system, the length (time) of the transmission / reception slot is on the order of μs to ms, and can be ignored as compared with the time during which the user operates the information processing apparatus 9001. It's time. Accordingly, the user of the information processing apparatus 9001 can continue to use the information processing apparatus 9001 as usual without being particularly aware that the wireless communication apparatus 9002 is performing wireless communication with the base station.
[0155]
In FIG. 38, assuming that the terminal is in the “normal state”, the amount of interference waves emitted from the information processing apparatus 9001 is controlled for each transmission / reception slot. In general, in TDMA communication, TDD communication, and the like, a transmission / reception slot assigned to a terminal is paired to form a frame. Therefore, a method for controlling the radiation amount of interference waves in units of this frame is used. Also good. This is used when the terminal is not in “communication state” but in “standby state”. An embodiment in which this method is used will be described with reference to FIG.
[0156]
In FIG. 41, 8005 and 8006 are in units of one frame, and the conventional control method corresponds to the control method 1 and controls the radiation amount from the information processing apparatus 9001 in units of one slot. That is, the information processing apparatus is used when transmission is performed from the base station to the wireless communication apparatus 9002 (8007, 8009) and transmission is performed from the wireless communication apparatus 9002 to the base station (8008, 8010). Control to reduce the amount of radiation from 9001 works, and control is performed so that the information processing apparatus 9001 is in an operating state at all other times (8011, 8012, 8013).
[0157]
On the other hand, in the control method 2, the radiation amount from the information processing apparatus 9001 is controlled in units of one frame. That is, in response to frames 8005 and 8006, a control signal is sent so as to reduce the amount of radiation of information processing apparatus 9001 (8014 and 8016), and information processing apparatus 9001 is set in an operating state other than the frame for wireless communication apparatus 9002. (8015). In this control method 2, the rise of the circuit of the information processing apparatus 9001 is slow, and when the rise time of the circuit cannot catch up with the control for each slot, or the clock oscillator of the TDMA unit of the wireless communication apparatus 9002 or the information processing apparatus 9001 When the frequency accuracy is not so high and fine time control cannot be performed, only the transmission / reception slot time is an effective method when it is desired to reduce the radiation amount.
[0158]
In the methods shown in FIGS. 38 and 41, the amount of interference waves generated from the information processing apparatus 9001 is controlled periodically. However, the slot to be transmitted next to the wireless communication apparatus 9002 from the base station is designated. The wireless communication apparatus 9002 may be in a reception state in a designated slot with a small amount of interference wave. This is an effective method when information from base stations needs to be transmitted all at once. This operation will be described with reference to FIG.
[0159]
In FIG. 39, the base station transmits the time (3012) at which data is to be transmitted collectively to the wireless communication apparatus 9002 in the slot 3003 before that. On the wireless communication device 9002 side, at time 3012 when data is transmitted, a control signal for reducing noise is output to the information processing device 9001 (3009), and the amount of radiation from the information processing device 9001 is increased. In a small state (3007), it waits and receives data transmitted from the base station. At this time, in the slot 3005, the base station may notify the wireless communication apparatus 9002 of the next time to transmit data collectively.
[0160]
Conversely, the slot from which the base station next transmits to the wireless communication apparatus 9002 may be designated from the wireless communication apparatus 9002 to the base station. An embodiment of this method will be described with reference to FIG.
[0161]
In this embodiment, the wireless communication device 9002 side transmits in advance (4007) the time when the radiation amount is low to the base station (4003), and at that time, the base station transmits data. (4009). The wireless communication apparatus 9002 waits in a state where the amount of radiation from the information processing apparatus 9001 is small (4007), and receives data transmitted from the base station (4009). Using the slot at this time, the base station may be notified of the time at which data is next received together (4005). This method is intended to transmit and receive data effectively using this time zone when the wireless communication device 9002 side knows in advance that the amount of radiation of the information processing device 9001 is low. It is. According to this method, when the period in which the noise of the information processing apparatus 9001 is long lasts compared to the case where transmission / reception is performed in the transmission / reception slot period of the normal TDMA and TDD systems (FIGS. 38 and 41). Since the transmission / reception with the base station can be continuously performed, there is an effect that more flexible and efficient wireless communication can be performed.
[0162]
In the information processing apparatus 9001 and the wireless communication apparatus 9002 used by being inserted in the information processing apparatus 9001 and the wireless communication system using the information processing apparatus 9001 according to the fourth aspect of the invention, the wireless communication apparatus 9002 side immediately before the slot where transmission / reception is performed, A control signal is sent to the inside of the information processing apparatus 9001 and the level of the interference wave generated from the inside of the information processing apparatus 9001 is attenuated in response to a request for this signal. Therefore, when transmitting and receiving data, there is an effect that wireless communication can be performed satisfactorily without being affected by the interference wave from the information processing apparatus 9001.
[0163]
In addition, by using a method for designating a time for transmitting / receiving the next data in advance between the wireless communication apparatus 9002 and the base station according to the present invention, transmission / reception is performed at a transmission / reception slot period of a normal TDMA / TDD system. Compared with the case where the information processing device 9001 has a low noise period for a long time, it is possible to continue to exchange data with the base station, so that more flexible and efficient wireless communication is possible. There is an effect that can be done.
[0164]
(5) Next, the fifth invention will be described with reference to FIGS.
[0165]
As described above, when a computer or a portable information terminal exchanges data with an external device, it needs to be easily moved and used. In this case, it is necessary to use wireless communication because it prevents movement by wire. Furthermore, it is preferable to use a card-type wireless communication device in order to provide versatility so that any terminal can perform wireless communication. At this time, since the card-type wireless communication device is put in a case such as a computer or a portable information terminal, it is easily affected by noise generated by the computer or the portable information terminal. In order to avoid this, according to the present invention, as shown in FIG. 43, a main body such as a personal computer or a portable information terminal 701 is provided with one or more antennas for wireless communication, and diversity reception is performed. Is configured to perform data communication in a good state.
[0166]
Here, an external antenna 704, a built-in antenna 705, and a built-in antenna 710 of the card type wireless communication apparatus 703 are used as the antenna. At the same time, the communication state can be kept good against external factors such as fading.
[0167]
The antenna is attached at a distance of 1/8 wavelength or more of the frequency used for communication from the antenna 710 of the card type wireless communication apparatus 703 in the card slot 706. In this manner, the computer, the portable information terminal, and the like communicate with the base station 702 and are connected to the host computer 709 via the cable 707. When connecting to an external database or the like, it is performed by connecting to an external data communication network 708 such as a telephone line.
[0168]
Functions provided in the card-type wireless communication device 703 inserted into a computer, a portable information terminal 701, and the like will be described with reference to FIG.
[0169]
The card wireless communication device 802 is provided with one or more noise source detection mechanisms 803 and one or more communication mechanisms 804. FIG. 45 shows an algorithm for control.
[0170]
On the card-type wireless communication device 802 side, a signal for identifying that the card-type wireless communication device 802 is inserted is received from a computer, a portable information terminal 801, etc., and the operation is started (steps D1 and D2). First, in order not to be affected by noise until the communication line is opened, the main power is turned off on the computer (personal digital assistant) side, etc. (PC side), or the process that generates noise is stopped so that there is no noise. (Steps D3 to D5). On the card-type wireless communication device 802 side, after no noise from a computer, a portable information terminal, or the like is present, the first communication line is established, and thereafter communication is performed in a normal state (steps D6 to D10).
[0171]
Consider a case where the noise source detection unit 803 detects noise at a level that interferes with communication while the card-type wireless communication device 802 performs communication, and is at a level that interferes with data communication. In this case, the card-type wireless communication device 802 performs processing such as temporarily stopping the communication state and retransmitting data of a portion that is highly likely to be erroneous, and performs communication while confirming the communication state (steps D11 and D12).
[0172]
A card-type wireless communication device 802 shown in FIG. 46 has a plurality of antennas 804 and 805 and a plurality of reception functions 806. 46, reference numeral 804 denotes a communication dedicated antenna, 805 denotes a communication / noise detection switching type antenna, 806 denotes a receiving unit, 807 denotes a wireless communication unit, 808 denotes a noise detecting unit, and 809 denotes a changeover switch.
[0173]
When the card-type wireless communication device 802 is used as a single card-type wireless communication device 802 such as a telephone or a wireless calling device, the plurality of antennas 804 and 805 and the plurality of receiving devices 806 perform diversity reception. Consider a case where data communication is performed by putting this in a computer or a portable information terminal 801.
[0174]
The card-type wireless communication device 802 is put in a computer, a portable information terminal, or the like, and the card-type wireless communication device 802 recognizes the card-type wireless communication device 802, and a part of the plurality of antennas 804 805 and the receiving unit 806 is connected to the computer or the portable information terminal 801. Used for internal noise detection. For this purpose, antenna switching is performed using the switch 809 inside the card-type wireless communication apparatus 802. When the noise detection unit 808 detects noise at a level that hinders communication, measures such as interruption of communication are taken.
[0175]
The card-type wireless communication apparatus 902 shown in FIG. 47 has a plurality of antennas 903 and corresponding phase shifters 904. That is, in FIG. 47, 901 is a portable information terminal, 902 is a card-type wireless communication device, 903 is a dedicated antenna for communication, 904 is a phase shifter, 905 is a storage device, 906 is a low-speed CPU, 907 is a high-speed CPU, and 908 is a noise source. , 910 is a null point in the beam from the antenna, and 911 is a noise detector.
[0176]
When the card-type wireless communication device 902 is used as a single unit, the phase amount of each antenna 903 that provides a desired beam is stored in the memory 905 inside the card-type wireless device 902 and is used to fix the fixed phase. Communicate as is. In addition, when data communication is performed by putting this in a computer or portable information terminal 901, the phase amount of the phase shifter of each antenna is adjusted with respect to an internal noise source 908 such as the computer or portable information terminal 901. To form a beam, create a null point 910 in the noise source direction, and perform an adaptive operation. In this case, the phase amount is calculated by a high-speed CPU 907 such as a computer or a portable information terminal 901, and an adaptive operation is performed on the card-type wireless communication apparatus 902 side based on the coefficient. As a result, a high-speed and expensive computer is conventionally required for calculating the phase amount for adaptive operation. By using the calculation capability of the main body of a computer or a portable information terminal 901, a card-type wireless communication device On the 902 side, a low-speed CPU 906 can be used, and the card-type wireless communication device 902 itself can be made inexpensively.
[0177]
Next, consider a case where a noise source such as a computer or a portable information terminal 1601 moves as shown in FIG. In FIG. 48, 1601 is a portable information terminal, 1602 is a card radio, 1603 is a display device, 1604 is a communication antenna, 1605 is a storage device, 1606 is a CPU, 1607 is a phase shifter, 1608 is a fixed noise source, and 1609 is a time source. Moving noise at time T1, 1610 moving noise at time T2, 1611 fixed noise, 1612 beam from the antenna at time T1, 1613 beam from the antenna at time T2, 1614 display device The clock source 1615 is a noise detector.
[0178]
In order to rewrite a screen such as a liquid crystal screen of the display device 1603, the scanning line moves at a certain cycle, and noise is generated at this time. Therefore, communication is performed by performing an adaptive operation with respect to the noise directions 1609 and 1610. If the noise direction fluctuates rapidly and the phase amount cannot be calculated, the noise direction is confirmed before opening the communication line, and the phase amount is calculated for each of the noise directions 1609 and 1610. A table is created in the memory 1605 inside the communication apparatus. Then, the noise detection unit 1615 receives a scanning line synchronization signal of a computer, a portable information terminal, or the like in the card radio, and changes the phase amount accordingly to perform communication with a good communication line. In this case, a null point is also created for fixed noise.
[0179]
As described above, the card radio has a mechanism for detecting noise in computers and personal digital assistants, etc., which detects the noise level and direction of arrival and excites each antenna. Since a null point is created with respect to the noise direction by adjusting, a good communication state can be ensured without being affected by noise.
[0180]
(6) Next, the sixth invention will be described with reference to FIG.
[0181]
The information processing apparatus 1-1 includes ICs such as a CPU 1-2, memories 1-3 and 1-4, and an LCD controller 1-5. The CPU 1-2, the memories 1-3, 1-4, and the LCD controller 1-5 are connected by a system bus 1-6.
[0182]
Of course, the information processing apparatus 1-1 may be equipped with various other ICs for performing the functions, and may be equipped with a plurality of CPUs, memories, controllers, system buses, and the like.
[0183]
On the other hand, in the wireless card 1-7, a memory 1-8 that can substitute all or part of the functions of the memory 1-4 of the information processing apparatus main body is mounted together with the MPU 1-9, the modem 1-10, and the like.
[0184]
Of course, the wireless card 1-7 may also be equipped with various ICs for performing all or part of the functions of other components of the information processing apparatus main body, MPU, memory, modem. A plurality of such may be mounted.
[0185]
When the wireless card 1-7 is not inserted, when the wireless card 1-7 is not in the vicinity of the information processing apparatus, when the wireless card 1-7 is not operating, or when the wireless card 1-7 When the signal is not received, the components of the information device main body may be operated by receiving a normal clock from the clock generator 1-12.
[0186]
When the wireless card 1-7 is inserted, when the wireless card 1-7 is in the vicinity of the information processing apparatus, when the wireless card 1-7 is operating, or when the wireless card 1-7 receives In such a case, the supply of the clock to the memory 1-4 of the information processing apparatus main body is stopped, and the function of the memory 1-4 of the information processing apparatus main body is stopped by the memory 1-8 in the wireless card 1-7. Act for all or part of it. At this time, the memory 1-8 in the wireless card 1-7 has a clock frequency with a low possibility of causing interference with the modem 1-10 or a receiving circuit in the modem 1-10 or the clock generator 1 in the wireless card 1-7. 13 is supplied.
[0187]
Signal exchange with other components of the information processing apparatus main body uses the system bus of the card interface 1-11 used for connection with the wireless card 1-7. The system bus may include an address bus and a data bus, and other buses may be used to exchange other data.
[0188]
By using this means, the frequency of the clock supplied to the component acting in the wireless card 1-7 can be set in advance so as not to affect the operation of the modem 1-10 and the receiving unit. Compared with the method of changing the clock of the main part, stable operation can be obtained regardless of the model of the information processing apparatus main body.
[0189]
Further, when combined with the function of changing the clock frequency of the information processing apparatus main body to avoid interference, the control burden on the main body side can be reduced.
[0190]
In addition, by incorporating the device driver of the wireless card 1-7 into the memory of the information processing apparatus at the time of starting up the information processing apparatus or immediately before using the wireless card 1-7, setting of necessary preparations can be made along with the function replacement. It is possible to do it.
[0191]
As described above, according to the sixth invention, the wireless card 1-7 is equipped with a circuit that can substitute all or part of the functions of a part of the circuit of the information processing apparatus 1-1. When 1-7 receives a radio signal, the clock supply to a part of the circuit of the information processing apparatus 1-1 is stopped, and a circuit that can substitute all or part of the above functions is connected to the receiving circuit. By generating and supplying in the wireless card 1-7 a clock frequency that has a low possibility of causing interference, stable generation is achieved by suppressing the generation of a clock frequency that causes reception failure or an integer multiple of the clock frequency. be able to.
[0192]
【The invention's effect】
As described above, according to the present invention, when a change in the internal radio wave environment of the information processing apparatus becomes an interference signal for the wireless communication terminal, the generation of the interference signal can be suppressed. It becomes possible to avoid the deterioration of communication quality due to the interference signal emitted by the processing device.
[Brief description of the drawings]
FIG. 1 is a block diagram showing the configuration of an information processing apparatus and a wireless communication apparatus according to a first embodiment of the first invention.
FIG. 2 is a block diagram showing a second configuration example of the information processing apparatus and the wireless communication apparatus according to the first embodiment.
FIG. 3 is a block diagram showing a third configuration example of the information processing apparatus and the wireless communication apparatus according to the first embodiment.
FIG. 4 is a block diagram showing a configuration of an information processing apparatus and a wireless communication apparatus according to a second embodiment of the first invention.
FIG. 5 is a block diagram showing a second configuration example of the information processing apparatus and the wireless communication apparatus according to the second embodiment.
FIG. 6 is a block diagram showing a third configuration example of the information processing apparatus and the wireless communication apparatus according to the second embodiment.
FIG. 7 is a block diagram showing a configuration of an information processing apparatus and a wireless communication apparatus according to a third embodiment of the first invention.
FIG. 8 is a block diagram showing a second configuration example of the information processing apparatus and the wireless communication apparatus according to the third embodiment.
FIG. 9 is a block diagram showing a third configuration example of the information processing apparatus and the wireless communication apparatus according to the third embodiment.
FIG. 10 is a timing chart showing first operation control of the information processing apparatus and the wireless communication apparatus according to the first invention.
FIG. 11 is a timing chart showing first operation control of the information processing apparatus and the wireless communication apparatus according to the first invention.
FIG. 12 is a timing chart showing first operation control of the information processing apparatus and the wireless communication apparatus according to the first invention;
FIG. 13 is a timing chart showing second operation control of the information processing apparatus and the wireless communication apparatus according to the first invention;
FIG. 14 is a timing chart showing third operation control of the information processing apparatus and the wireless communication apparatus of the first invention.
FIG. 15 is a block diagram showing an information processing apparatus and a wireless communication apparatus according to a fourth embodiment of the first invention.
FIG. 16 is a block diagram showing a second configuration example of the information processing apparatus and the wireless communication apparatus according to the fourth embodiment of the first invention;
FIG. 17 is a timing chart showing first operation control of an information processing apparatus and a wireless communication apparatus according to a fourth embodiment of the first invention;
FIG. 18 is a timing chart showing second operation control of the information processing apparatus and the wireless communication apparatus according to the fourth embodiment of the first invention;
FIG. 19 is a flowchart showing another operation control process of the information processing apparatus and the wireless communication apparatus according to the first invention.
20 is a diagram showing an example of information used in the operation control process of FIG.
FIG. 21 is a block diagram showing the configuration of an information processing apparatus and a wireless communication apparatus according to a fifth embodiment of the first invention.
FIG. 22 is a block diagram showing a second configuration example of the information processing apparatus and the wireless communication apparatus according to the fifth embodiment of the first invention;
FIG. 23 is a flowchart showing operation control processing of the information processing apparatus and the wireless communication apparatus according to the fifth embodiment of the first invention;
FIG. 24 is a flowchart showing another operation control process of the information processing apparatus and the wireless communication apparatus according to the fifth embodiment of the first invention;
FIG. 25 is a flowchart showing a basic control processing procedure applied to the second invention.
FIG. 26 is a block diagram showing a configuration of a wireless communication apparatus necessary for executing the control procedure shown in FIG.
FIG. 27 is a timing chart for explaining the read operation of desired wave field strength information and interference wave field strength information executed by the wireless communication apparatus of FIG. 26;
FIG. 28 is a timing chart illustrating operations of the wireless communication device and the information processing device according to the second invention.
FIG. 29 is a diagram showing a configuration example of an interference wave field strength information storage circuit used in the second invention.
FIG. 30 is a diagram showing a frequency spectrum of an interference wave handled in the second invention.
FIG. 31 is a diagram showing a state in which the quality of radio communication is degraded by the frequency spectrum of the interference wave in FIG. 30;
FIG. 32 is a block diagram showing a specific configuration example of an information processing apparatus according to the third invention.
FIG. 33 is a view showing a frequency spectrum of unnecessary radiation handled in the third invention.
34 is a diagram showing a state in which the frequency spectrum of unnecessary radiation in FIG. 33 is superimposed on a radio frequency band.
FIG. 35 is a flowchart showing an operation process of the information processing apparatus in the third invention.
FIG. 36 is a diagram showing a state in which the frequency spectrum of unwanted radiation is shifted outside the radio frequency band by the process of FIG. 35.
FIG. 37 is a block diagram showing the configuration of the previous stage leading to the information processing apparatus according to the third invention.
FIG. 38 is a timing chart showing the basic operation of the wireless communication system in the fourth invention.
FIG. 39 is a timing chart showing a second operation of the wireless communication system in the fourth invention.
FIG. 40 is a timing chart showing a third operation of the wireless communication system in the fourth invention.
41 is a timing chart showing a fourth operation of the wireless communication system in the fourth invention. FIG.
FIG. 42 is a block diagram showing a configuration of an information processing apparatus according to the fourth invention and a wireless communication apparatus used by being inserted therein;
FIG. 43 is a diagram showing a configuration of an information processing device according to the fifth invention and a wireless communication device used by being inserted therein;
FIG. 44 is a view for explaining a mechanism provided in the wireless communication apparatus according to the fifth invention.
FIG. 45 is a flowchart for explaining basic operation procedures of the information processing apparatus and the wireless communication apparatus according to the fifth invention;
FIG. 46 is a diagram showing a specific configuration of a wireless communication apparatus according to the fifth invention.
47 is a diagram for explaining the operation of the wireless communication apparatus in FIG. 46; FIG.
48 is a diagram for explaining the operation of the wireless communication apparatus in FIG. 46; FIG.
FIG. 49 is a block diagram showing the configuration of an information processing device and a wireless communication device according to the sixth invention.
FIG. 50 is a block diagram showing a configuration of a conventional information processing apparatus.
FIG. 51 is a block diagram showing a configuration of a conventional wireless communication apparatus.
FIG. 52 is a diagram for explaining a frequency spectrum of unnecessary radiation generated from a conventional information processing apparatus.
53 is a diagram for explaining a cause of occurrence of unnecessary radiation in FIG. 52;
54 is a diagram for explaining an influence on a radio signal due to unnecessary radiation in FIG. 52;
FIG. 55 is a diagram for explaining an influence on a radio signal by unnecessary radiation in FIG. 52;
56 is a diagram for explaining the cause of unnecessary radiation in FIG. 52;
FIG. 57 is a diagram for explaining an example of a communication mode using a conventional information processing apparatus.
FIG. 58 is a diagram for explaining another example of a communication form using a conventional information processing apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 101 ... Information processing apparatus, 102 ... Wireless communication apparatus, 103 ... Signal transmission part, 104 ... Information processing function block of information processing apparatus, 105 ... Control function block of information processing apparatus, 106 ... Control function block of wireless communication apparatus, 107 ... wireless communication functional block of wireless communication apparatus, 108 ... antenna of wireless communication apparatus, 109 ... clock signal generator of information processing apparatus, 110 ... first information processing functional block of information processing apparatus, 111 ... of information processing apparatus M-th information processing function block, 112 ... storage device of information processing device, 113 ... storage device of wireless communication device, 114 ... information output device of information processing device, 115 ... information output device of wireless communication device, 222 ... storage Circuit, 223 ... Memory circuit, 224 ... CPU or DSP, 225 ... Memory circuit, 226 ... Clock generation circuit, 227 Clock generation circuit, 228... Connection unit (of wireless communication terminal), 229... Connection unit (of information processing device), 201... A / D converter, 501... Reference signal generator, 502. Generator, 504... CPU, 505... ROM, 506... DRAM, 507... VRAM, 508... Gate array and control circuit, 509. Interface 513 ... Interface with input device 514 ... Man-machine interface part 515 ... Floppy disk control part 516 ... External interface part 517 ... Reception circuit 518 ... Transmission circuit 519 ... Radio control circuit 520 ... Antenna 521: Radio unit, 522: First reference signal, 523: Second reference signal 524 ... Frequency division control circuit, 525 ... Frequency determination circuit, 801 ... Personal digital assistant, 802 ... Card radio operating as a single unit, 803 ... Card radio operating as a radio unit of the mobile information terminal, 804 ... Communication dedicated antenna, 805 ... Communication / noise detection switching antenna, 806 ... Reception unit, 807 ... Wireless communication unit, 808 ... Noise detection unit, 809 ... Changeover switch, 1-1 ... Information device, 1-2 ... CPU DESCRIPTION OF SYMBOLS 1-3 ... Memory, 1-4 ... Memory, 1-5 ... Controller, 1-6 ... System bus, 1-7 ... Wireless card, 1-8 ... Proxy memory, 1-9 ... MPU, 1-10 ... Modem, 1-11 ... card interface, 1-12 ... clock oscillator, 1-13 ... clock oscillator, 9001 ... information processing terminal, 9002 ... wireless terminal, 9003 ... keyboard, 9004 ... TDMA processing unit, 9005 ... radio unit, 9006 ... antenna, 9007 ... TDMA reference clock for radio terminal, 9008 ... control circuit reference clock, 9009 ... interface unit between information processing terminal and radio terminal, 9010 ... control circuit, 9011 ... Keyboard input processing unit, 9012 ... Reference oscillator for keyboard input processing unit, 9013 ... Memory, 9014 ... Reference oscillator for memory, 9015 ... Power supply unit.

Claims (2)

In an information processing device that can be connected to a wireless communication device,
Means for holding electric field strength information about an interference signal generated due to execution of arbitrary processing in the information processing apparatus;
Wherein according to the field strength information about the interference signal electric field strength information is the holding of the desired signal by the wireless communication device receives, the processing in the information processing apparatus affects the communication operation of the wireless communication device, the radio An information processing apparatus comprising: a control unit that executes in a non-reception period of wireless communication of the communication apparatus. The means for holding the electric field strength information holds electric field strength information about an interference signal generated due to execution of the processing in association with each of the plurality of processing in the information processing apparatus,
The control means influences the communication operation of the wireless communication device according to the electric field strength information about the interference signal corresponding to each of the plurality of processes and the electric field strength information of the desired signal received by the wireless communication device. Means for determining a process in the apparatus, and means for controlling execution timing of the determined process so that the determined process is executed in a non-reception period of the wireless communication of the wireless communication apparatus. The information processing apparatus according to claim 1.

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