CN102142923B - Multi-communication protocol data transmission method and device thereof - Google Patents

Multi-communication protocol data transmission method and device thereof Download PDF

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CN102142923B
CN102142923B CN 201010105633 CN201010105633A CN102142923B CN 102142923 B CN102142923 B CN 102142923B CN 201010105633 CN201010105633 CN 201010105633 CN 201010105633 A CN201010105633 A CN 201010105633A CN 102142923 B CN102142923 B CN 102142923B
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communication protocol
transmission
protocol
communication
multi
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CN102142923A (en )
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江书育
林永森
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宏碁股份有限公司
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一种多通讯协议的数据传输方法及其装置,适用于自动选择电子装置的多通讯协议的数据传输模式。 Data transfer mode data transmission method and apparatus for multi-protocol communication, the electronic device for the automatic selection of the plurality of communication protocols. 这些通讯协议包括至少第一通讯协议与第二通讯协议,且所述的方法包括以下步骤。 These protocols include at least a first communication protocol and a second protocol, and said method comprises the following steps. 首先,识别第一通讯协议目前所使用的设定配置文件。 First, identify the first communication protocol currently used to set the configuration file. 然后,根据第一通讯协议目前所使用的设定配置文件,选择第一通讯协议与第二通讯协议同时使用跳频扩频传输模式或多工传输模式。 Then, according to a first communication protocol setting configuration file currently used, select a first protocol and a second communication protocol while using frequency hopping spread spectrum transmission mode or multi-station transmission mode.

Description

多通讯协议的数据传输方法及其装置 Data transmission method and apparatus of a multi-communication protocol

技术领域 FIELD

[0001] 本发明是有关于多通讯协议的数据传输方法,且特别是有关于一种在一近似频带中共存(coexistent)操作的多通讯协议的数据传输方法及其装置。 [0001] The present invention relates to a data transmission method for a multi-protocol communications, and more particularly to a data transmission method and apparatus relates to coexist in an approximately band (coexistent) of the multi-protocol operation.

背景技术 Background technique

[0002] 目前无线通讯技术在电子装置上日益普及,而电子装置例如:笔记本型计算机、移动电话与手持装置皆逐渐内嵌无线通讯的功能,以满足使用者对于无线通讯服务的需求。 [0002] At present the growing popularity of wireless communication technology in the electronic device, and electronic devices such as: notebook computers, mobile phones and handheld devices are increasingly embedded wireless communication function, in order to meet user demand for wireless communications services. 然而,电子装置中可能具有超过一种无线通讯功能,例如:蓝牙(Bluetooth)标准、无线局域网络(Wireless Local Area Network,简称为Wireless LAN)标准、全球互通微波存取(Worldwide Interoperabilityfor Microwave Access,简称为WiMAX)系统以及宽带码分多址接入(WidebandCode Division Multiple Access,简称为WCDMA)系统等。 However, the electronic device may have more than one wireless communication features such as: Bluetooth (Bluetooth) standards, wireless local area network (Wireless Local Area Network, referred to as Wireless LAN) standard, WiMAX (Worldwide Interoperabilityfor Microwave Access, referred to as WiMAX) system and a wideband Code Division Multiple access (WidebandCode Division Multiple access, referred to as WCDMA) system and the like. 另外,这些无线通讯功能在操作时,可能使用相同的频带或相邻近的频带。 Further, such wireless communication function is in operation, or may use the same frequency band adjacent to the frequency band. 因此,使用相同频带或相邻近频带的无线通讯功能在共存(coexistence)状况下操作时,可能会遭遇到严重的射频信号互相干扰,进而降低无线通讯功能的整体传输流通量(throughput)或无线通讯服务的使用者体验。 Thus, when using the same frequency band adjacent to the frequency band or wireless communication operation in the presence of (Coexistence) status, you may encounter serious RF signals interfere with each other, thereby reducing the overall transmission throughput of the wireless communication function (throughput) or wireless user experience communications services.

[0003] 相关的技术或无线通讯标准陆续提出以解决不同的无线通讯功能,在相同频带或相邻近频带中共存时,可能遭遇到互相干扰的状况来。 [0003] Related art wireless communication standards or proposed to solve the succession of different wireless communication function, or coexist in the same frequency band adjacent to the band, may be subjected to conditions interfere with each other. 例如,在同时具备无线保真度通讯协议(Wireless Fidelity,简称为W1-Fi)标准以及蓝牙标准的电子装置上,电子装置可以采用自适应跳频扩频(AdaptiveFrequency Hopping Spread Spectrum,简称为AFHSS)传输模式或时分多工(Time Division Multiplexing,简称为TDM)传输模式来避免蓝牙设备与W1-Fi设备之间的无线传输互相干扰。 For example, while the communication protocol includes Wireless Fidelity (Wireless Fidelity, abbreviated as W1-Fi) standard, and Bluetooth standard electronic device, the electronic device may employ adaptive frequency hopping spread spectrum (AdaptiveFrequency Hopping Spread Spectrum, abbreviated as AFHSS) transmission mode or a time division multiplexing (Time division Multiplexing, simply referred to as TDM) transmission mode to avoid radio transmission between Bluetooth devices W1-Fi device and interfere with each other. AFHSS传输模式是通过避免两种无线通讯功能在跳频顺序中使用较拥挤的频带,或让蓝牙传输模式跳频远离W1-Fi的主要操作频带,来改善蓝牙设备与W1-Fi设备之间射频信号的互相干扰。 AFHSS transmission mode is to avoid having both the wireless communication function through the use of more crowded frequency band hopping sequence, a frequency hopping or so away from the main transmission mode of the Bluetooth operating frequency band of the W1-Fi, Bluetooth devices to improve the radio between the device and the W1-Fi mutual interference signal. TDM传输模式则通过分配不同时间槽给两种无线通讯功能,以避免蓝牙设备与W1-Fi设备之间的互相干扰。 The TDM transmission mode by allocating different time slots to the two radio communication function, in order to avoid interference between the Bluetooth device and W1-Fi device.

[0004]目前电子装置在进行蓝牙传输的操作时,为了较高速率的传输表现,其传输模式会预设在TDM传输模式;而当电子装置在进行W1-Fi传输的操作时,则其传输模式会预设在AFHSS传输模式。 [0004] During operation of the electronic device is currently Bluetooth transmission, the transmission performance for a higher rate, the transmission mode preset in TDM transmission mode; and when the electronic device during operation W1-Fi transmission, it transmits a in default mode AFHSS transfer mode. 对于目前同时具有蓝牙与W1-Fi传输功能的电子装置而言,蓝牙传输与W1-Fi传输之间并没有明确的沟通机制来同步所使用的传输模式,以致于使用者使用电子装置同时进行蓝牙传输与W1-Fi传输时,会有不便利或感受较差的操作体验。 For electronic devices for the present but also has Bluetooth and W1-Fi transmission function between Bluetooth transmission with W1-Fi transfer mode transmission is not clear communication mechanisms used to synchronize, so that the user to use electronic devices while Bluetooth when the transmission and W1-Fi transmission, there is no convenient or feel poor operating experience.

发明内容 SUMMARY

[0005] 本发明的示范实施例提供多种多通讯协议的数据传输方法及其装置。 Data transmission method and apparatus of exemplary embodiments [0005] The present invention provides a variety of multiple communication protocols. 这些多通讯协议的数据传输方法及其装置根据使用者在操作多通讯协议装置中实际感受的需要,适当地自动选择多通讯协议的多种传输模式之一,以提供较佳的使用者体验。 Data transmission method and apparatus in accordance with the multi-user communication protocols in a multi-protocol operation means actually feel the need to appropriately automatically selected one of a plurality of multi-mode transmission protocol, in order to provide a better user experience.

[0006] 本发明的示范实施例提供一种多通讯协议的数据传输方法。 Exemplary [0006] embodiment of the present invention provide a data transmission method for a multi-protocol communications. 所述的多通讯协议的数据传输方法自动选择一个电子装置的多个通讯协议的一个数据传输模式。 The data transmission method of the multi-protocol automatically selecting a data transmission mode a plurality of communication protocols of the electronic device. 这些通讯协议包括至少第一通讯协议与第二通讯协议,且所述的多通讯协议的数据传输方法包括以下步骤。 These protocols include at least a first communication protocol and a second protocol, data transmission method and said plurality of communication protocols comprises the following steps. 首先,识别第一通讯协议目前所使用的设定配置文件(profile)。 First, recognition profiles set (Profile) a first communication protocol currently used. 然后,根据第一通讯协议目前所使用的设定配置文件,选择第一通讯协议与第二通讯协议同时使用一个跳频扩频(Frequency Hopping Spread Spectrum,简称为FHSS)传输模式或一个多工(multiplexing)传输模式。 Then, according to a first communication protocol setting configuration file currently used, select a first protocol and the second protocol use a frequency hopping spread spectrum (Frequency Hopping Spread Spectrum, simply referred to as FHSS) transmission mode or a multiplex ( Multiplexing) transmission mode.

[0007] 根据本发明的示范实施例,当上述第一通讯协议目前使用的设定配置文件为一个高传输量设定配置文件时,选择第一通讯协议与第二通讯协议同时使用所述的多工传输模式。 [0007] According to an exemplary embodiment of the present invention, when setting the profile of the first protocol used by the current profile is set to a high transmission capacity, to select a first communication protocol and a second communication protocol while using the multiplex transmission mode. 相反地,当第一通讯协议的目前使用的设定配置文件为一个低传输量设定配置文件时,选择第一通讯协议与第二通讯协议同时使用所述的跳频扩频传输模式。 Conversely, when the current profile is set using the first communication protocol is set to a low-profile transfer amount, selecting a first protocol and a second communication protocol while using the frequency hopping spread-spectrum transmission mode.

[0008] 根据本发明的示范实施例,上述多通讯协议的数据传输方法还包括以下步骤。 [0008] According to an exemplary embodiment of the present invention, the data transmission method of the multi-communication protocol further comprises the following steps. 检测第一通讯协议的目前传输流通量(throughput),当第一通讯协议的目前传输流通量大于一个传输流通量门坎值时,选择第一通讯协议与第二通讯协议同时使用所述的多工传输模式。 Detecting a first current circulation transport communication protocol (throughput), when the transmission is currently in circulation is greater than a threshold value of the first transmission throughput communication protocol, selecting a first protocol and a second protocol using the simultaneous multi- transfer mode.

[0009] 根据本发明的示范实施例,当上述第一通讯协议与第二通讯协议同时使用所述的多工传输模式时,将第一通讯协议所欲传送的数据从第一通讯协议的第一媒体存取控制层(Medium Access Control Layer,简称为MAC Layer)转交给第二通讯协议的第二媒体存取控制层处理后,再通过第二通讯协议的物理层传送。 When [0009] According to an exemplary embodiment of the present invention, when the first protocol and the second protocol using both said multiplex transmission mode, the data of the first transmission of a desired communication protocol from the first communication protocol a MAC layer (medium access control layer, abbreviated as MAC layer) transferred to a second medium access protocol after the second control layer processing, and then by the physical layer of the second transmission protocol.

[0010] 根据本发明的示范实施例,上述多通讯协议的数据传输方法还包括以下步骤。 [0010] According to an exemplary embodiment of the present invention, the data transmission method of the multi-communication protocol further comprises the following steps. 检测第一通讯协议的目前传输速率值,当第一通讯协议的目前传输速率值大于一个传输速率门坎值时,选择第一通讯协议与第二通讯协议同时使用所述的多工传输模式。 The current transmission rate value detected by the first communication protocol, when the current transmission rate of the first communication protocol transmission rate value is larger than a threshold value, selecting a first protocol and a second communication protocol while using the multi-transport mode.

[0011] 根据本发明的示范实施例,上述多个通讯协议在一个近似频带中共存(coexistent)操作。 [0011] According to an exemplary embodiment of the present invention, the plurality of communication protocols to coexist in a similar frequency band (coexistent) operation. 第一通讯协议为蓝牙(Bluetooth)通讯协议、一个近距离无线传输通讯协议或一个无线个人网络(Wireless Personal Area Network,简称为Wireless PAN)通讯协议。 The first communication protocol is Bluetooth (Bluetooth) communication protocol, a short-range wireless transmission protocol or a wireless personal network (Wireless Personal Area Network, referred to as the Wireless PAN) communication protocol. 第二通讯协议为IEEE 802.11通讯协议、一个无线局域网络(Wireless LocalArea Network,简称为Wireless LAN)通讯协议或一个无线保真度通讯协议(WirelessFidelity,简称为W1-Fi)。 The second communication protocol is IEEE 802.11 protocol, a wireless local area network (Wireless LocalArea Network, abbreviated as Wireless LAN) protocol or a wireless fidelity protocol (WirelessFidelity, abbreviated as W1-Fi).

[0012] 根据本发明的示范实施例,上述跳频扩频传输模式为自适应跳频扩频(AdaptiveFrequency Hopping Spread Spectrum,简称为AFHSS)传输模式。 [0012] According to an exemplary embodiment of the present invention, the above-described transmission mode to the adaptive frequency hopping spread spectrum frequency hopping spread spectrum (AdaptiveFrequency Hopping Spread Spectrum, simply referred to as AFHSS) transmission mode. 多工传输模式为时分多工(Time Division Multiplexing,简称为TDM)模式、码分多工(Code DivisionMultiplexing,简称为CDM)模式或自适应时分多工(Adaptive Time DivisionMultiplexing,简称为ATDM)模式。 Multiplexing transmission mode is time-division multiplexing (Time Division Multiplexing, simply referred to as TDM) mode, a code division multiplexing (Code DivisionMultiplexing, referred to simply as CDM) mode or an adaptive time-division multiplexing (Adaptive Time DivisionMultiplexing, abbreviated as ATDM) mode.

[0013] 根据本发明的示范实施例,上述高传输量设定配置文件为蓝牙立体声音频传输协议(Advanced Audio Distribution Prof ile,简称为A2DP)设定配置文件。 [0013] According to an exemplary embodiment of the present invention, the transmission capacity is set high profile for Bluetooth stereo audio transfer protocol (Advanced Audio Distribution Prof ile, abbreviated as A2DP) setting configuration file. 低传输量设定配置文件为人性化接口装置传输协议(Humanlnterface Device,简称为HID)设定配置文件。 Low profile transfer amount setting means to Human Interface Transfer Protocol (Humanlnterface Device, abbreviated as HID) profile set.

[0014] 根据本发明的示范实施例,上述的电子装置为计算机、笔记本型计算机、移动电话、智能型移动电话、个人数字助理(Personal Digital Assistant,简称为PDA)、电视、多媒体播放装置或手持电子装置。 [0014] According to an exemplary embodiment of the invention, the electronic device is a computer, a notebook computer, a mobile phone, a smart mobile phone, a personal digital assistant (Personal Digital Assistant, abbreviated as PDA), television, multimedia player, or handheld electronic devices.

[0015] 本发明的示范实施例提供一种多通讯协议的数据传输方法。 Exemplary [0015] embodiment of the present invention provide a data transmission method for a multi-protocol communications. 所述的多通讯协议的数据传输方法自动选择一个电子装置的多个通讯协议的一个数据传输模式。 The data transmission method of the multi-protocol automatically selecting a data transmission mode a plurality of communication protocols of the electronic device. 这些通讯协议包括至少第一通讯协议与第二通讯协议,且所述的多通讯协议的数据传输方法包括以下步骤。 These protocols include at least a first communication protocol and a second protocol, data transmission method and said plurality of communication protocols comprises the following steps. 首先,检测第一通讯协议的一个目前传输流通量。 First, a detection of the first transmission protocol is currently in circulation. 然后,根据第一通讯协议的一个目前传输流通量,选择第一通讯协议与第二通讯协议同时使用一个跳频扩频传输模式或一个多工传输模式。 Then, according to a first communication protocol present transmission throughput, selecting a first protocol and a second protocol using a frequency hopping spread spectrum transmission mode or a multi-transport mode simultaneously.

[0016] 本发明的示范实施例提供一种多通讯协议的数据传输方法。 Exemplary [0016] embodiment of the present invention provide a data transmission method for a multi-protocol communications. 所述的多通讯协议的数据传输方法自动选择一个电子装置的多个通讯协议的一个数据传输模式。 The data transmission method of the multi-protocol automatically selecting a data transmission mode a plurality of communication protocols of the electronic device. 这些通讯协议包括至少第一通讯协议与第二通讯协议,且所述的多通讯协议的数据传输方法包括以下步骤。 These protocols include at least a first communication protocol and a second protocol, data transmission method and said plurality of communication protocols comprises the following steps. 首先,检测第一通讯协议的一个目前传输速率值。 First, a first communication protocol currently detected transmission rate value. 然后,根据第一通讯协议的一个目前传输速率值,选择第一通讯协议与第二通讯协议同时使用一个跳频扩频传输模式或一个多工传输模式。 Then, according to a first communication protocol present transmission rate value, selecting the first protocol and the second protocol use a frequency hopping spread spectrum transmission mode or a multiplex transmission mode.

[0017] 本发明的示范实施例提出一种多通讯协议的数据传输装置。 Exemplary [0017] embodiment of the present invention proposes a data transmission apparatus in a multi-protocol communications. 所述的多通讯协议的数据传输装置自动选择一个电子装置的多个通讯协议的一个数据传输模式。 A data transfer mode data transfer apparatus according to a multi-protocol communication electronic device automatically selecting a plurality of communication protocols. 这些通讯协议包括至少第一通讯协议与第二通讯协议,且所述的多通讯协议的数据传输装置包括一个设定配置文件识别单元与一个传输模式选择单元。 These protocols include at least a first communication protocol and a second protocol, the data transmission device and said communication protocol comprises a multi-profile setting means and identifying a transmission mode selection unit. 设定配置文件识别单元用以识别第一通讯协议目前使用的一个设定配置文件。 Setting configuration file identification unit for identifying a first communication protocol setting configuration file currently used. 传输模式选择单元用以根据第一通讯协议目前使用的一个设定配置文件,选择第一通讯协议与第二通讯协议同时使用一个跳频扩频传输模式或一个多工传输模式。 Transmission mode selecting means for setting a profile according to a first communication protocol currently used, select a first protocol and a second protocol using a frequency hopping spread spectrum at the same time a transmission mode or multiplexing transmission mode.

[0018] 本发明的示范实施例提出一种多通讯协议的数据传输装置。 [0018] exemplary embodiment of the present invention proposes a data transmission apparatus in a multi-protocol communications. 所述的多通讯协议的数据传输装置自动选择一个电子装置的多个通讯协议的一个数据传输模式。 A data transfer mode data transfer apparatus according to a multi-protocol communication electronic device automatically selecting a plurality of communication protocols. 这些通讯协议包括至少第一通讯协议与第二通讯协议,且所述的多通讯协议的数据传输装置包括一个传输流通量检测单元、一个传输流通量比较单元与一个传输模式选择单元。 These protocols include at least a first communication protocol and a second protocol, the data transmission device and said plurality of communication protocols include a transmission flux detecting unit, a comparison unit and a transmission flux transmission mode selection unit. 传输流通量检测单元用以检测第一通讯协议的一个目前传输流通量。 Detecting means for detecting a transmission throughput of the first communication protocol a current transmission throughput. 另外,传输流通量比较单元用以判断目前传输流通量是否大于一个传输流通量门坎值。 Further, transmission throughput comparing unit for determining whether the transmission is currently in circulation is greater than a threshold value of the transmission throughput. 然后,当所述的传输流通量比较单元确认目前传输流通量未大于传输流通量门坎值时,传输模式选择单元选择第一通讯协议与第二通讯协议同时使用一个跳频扩频传输模式。 Then, when the transmission throughput comparing unit recognized when the current transmission is not transmitted flux circulation is greater than the threshold value, the transmission mode selection unit selects the first communication protocol and the second protocol use a frequency hopping spread spectrum transmission mode. 相反地,当所述的传输流通量比较单元确认目前传输流通量大于传输流通量门坎值时,传输模式选择单元选择第一通讯协议与第二通讯协议同时使用一个多工传输模式。 Conversely, when the transmission throughput comparing unit confirms the current transmission throughput threshold value larger than the transmission throughput, transmission mode selection unit selects the first communication protocol and a second protocol using a multi-station simultaneous transmission mode.

[0019] 本发明的示范实施例提出一种多通讯协议的数据传输装置。 Exemplary [0019] embodiment of the present invention proposes a data transmission apparatus in a multi-protocol communications. 所述的多通讯协议的数据传输装置用以自动选择一个电子装置的多个通讯协议的一个数据传输模式。 The multi-protocol data transmission apparatus a data transmission mode of the electronic device to automatically select a plurality of communication protocols. 这些通讯协议包括至少第一通讯协议与第二通讯协议,且所述的多通讯协议的数据传输装置包括一个传输速率检测单元、一个传输速率比较单元与一个传输模式选择单元。 These protocols include at least a first communication protocol and a second protocol, the data transmission device and said plurality of communication protocols include a transmission rate detecting unit, a transmission rate comparison unit and a transmission mode selection unit. 传输速率检测单元用以检测第一通讯协议的一个目前传输速率值。 A transmission rate detecting unit for detecting a first communication protocol present transmission rate value. 传输速率比较单元用以判断目前传输速率值是否大于一个传输速率门坎值。 Transmission rate comparison unit for determining whether the current transmission rate value is larger than a threshold value of the transmission rate. 然后,当传输速率比较单元确认目前传输速率值未大于传输速率门坎值时,传输模式选择单兀选择第一通讯协议与第二通讯协议同时使用一个跳频扩频传输模式。 Then, when the transmission rate comparison unit confirms the current transmission rate value does not exceed a transmission rate threshold value, the transmission mode selection unit selects the first Wu communication protocol and the second protocol use a frequency hopping spread spectrum transmission mode. 相反地,当传输速率比较单元确认目前传输速率值大于传输速率门坎值时,传输模式选择单元选择第一通讯协议与第二通讯协议同时使用一个多工传输模式。 Conversely, when the transmission rate comparison unit confirms the current transmission rate value is greater than the threshold value of the transmission rate, the transmission mode selection unit selects the first communication protocol and a second protocol using a multi-station simultaneous transmission mode.

[0020] 纵上所述,本发明的示范实施例提供多种多通讯协议的数据传输方法及其装置。 On the [0020] longitudinal embodiments provide a data transmission method and apparatus of a variety of multiple communication protocols exemplary of the invention. 这些多通讯协议的数据传输方法及其装置针对使用者重视的无线通讯功能,根据多通讯协议的一目前所使用的设定配置文件、目前传输速率值与传输速率门坎值的比较结果、或目前传输流通量与传输流通量门坎值的比较结果,来选择多通讯协议的共存操作时的一个传输模式。 The data transmission method and apparatus for multi-protocol wireless communication user attention, in accordance with a current configuration file used to set a plurality of communication protocols, the current comparison result of the transmission rate and transmission rate value threshold value, or the current a transmission mode upon transmitting the comparison result flux transmission throughput threshold value, to select multiple communication protocol coexistence operations. 通过此自动选择多通讯协议的传输模式,可以提升使用者在操作多通讯协议装置中的实际感受,进而提供较佳的使用者体验。 This multi-protocol automatically selecting a transmission mode, actually improve the user experience can be in operation in a multi-protocol apparatus, and thus provide a better user experience.

[0021] 下文特举本发明的示范实施例,并配合所附图式作详细说明如下,以让上述特征和优点能更明显易懂。 For Laid [0021] Hereinafter an exemplary embodiment of the present invention, and the accompanying figures are described in detail below, to allow the above features and advantages of the more comprehensible.

附图说明 BRIEF DESCRIPTION

[0022] 图1A表示一个W1-Fi装置使用自适应跳频扩频技术在三种不同状况下的传收数 [0022] Figure 1A shows a transmission number received W1-Fi device using an adaptive frequency hopping spread spectrum technique under three different conditions

据流通量。 According liquidity.

[0023] 图1B表示一个W1-Fi装置使用时分多工技术在三种不同状况下的传收数据流通量。 [0023] FIG 1B shows a W1-Fi device using time-division multiplexing technique transceiving data throughput under three different conditions.

[0024] 图2是根据本发明的第一示范实施例所绘示一种多通讯协议的数据传输方法的流程图。 [0024] FIG. 2 is a flow diagram illustrating a multi-protocol data transmission method according to a first exemplary embodiment of the present invention.

[0025] 图3是根据本发明的第二示范实施例所绘示另一种多通讯协议的数据传输方法的流程图。 [0025] FIG. 3 is a flowchart of a data transmission method illustrated according to another multi-protocol communication according to the second exemplary embodiment of the present invention.

[0026] 图4是根据本发明的第三示范实施例所绘示另一种多通讯协议的数据传输方法的流程图。 [0026] FIG 4 is a third exemplary embodiment of the present invention, a flow chart of another data transmission method of multi-protocol depicted.

[0027] 图5是根据本发明的一示范实施例所绘示一种具有多通讯协议的数据传输装置的电子装置的系统方块图。 [0027] FIG. 5 is a diagram illustrating a data transmission apparatus having a multi-protocol communication system block diagram of an electronic device according to an exemplary embodiment of the present invention.

[0028][主要元件标号说明] [0028] [Reference Numerals main elements]

[0029] 111、112、113、114、115、116、121、122、123、124、125、126:柱形图 [0029] 111,112,113,114,115,116,121,122,123,124,125,126: bar graph

[0030] 200,300,400:多通讯协议的数据传输方法 [0030] 200,300,400: Multi-protocol data transmission method of

[0031] S201 〜S214、S301 〜S314、S401 〜S414:步骤 [0031] S201 ~S214, S301 ~S314, S401 ~S414: Step

[0032] 500:电子装置 [0032] 500: electronic device

[0033] 510:第一通讯协议模块 [0033] 510: first communication protocol module

[0034] 520:第二通讯协议模块 [0034] 520: second communication protocol module

[0035] 530:多通讯协议的数据传输装置 Data transmission means of multiple communications protocols: [0035] 530

[0036] 531:设定配置文件识别单元 [0036] 531: setting configuration file identification means

[0037] 532:传输模式选择单兀 [0037] 532: transmission mode selecting single Wu

[0038] 533:传输流通量检测单元 [0038] 533: transmission throughput detecting unit

[0039] 534:传输流通量比较单元 [0039] 534: transmission throughput comparing unit

[0040] 535:传输速率检测单元 [0040] 535: transmission rate detecting unit

[0041] 536:传输速率比较单元 [0041] 536: transmission rate comparison unit

[0042] 540:存储器模块 [0042] 540: memory module

[0043] 542:操作系统 [0043] 542: Operating Systems

[0044] 550:处理器模块 [0044] 550: processor module

[0045] 560:天线模块 [0045] 560: antenna module

[0046] 570:连结线路具体实施方式 [0046] 570: link line DETAILED DESCRIPTION

[0047] 现在将详细参照所揭露的示范实施例,所述的示范实施例多绘示于附图中,附带一提的是,整个附图中相同的参考标记用于表示相同或相似的元件。 Model [0047] Referring now in detail to the disclosed embodiments, the exemplary embodiments shown in the accompanying drawings plurality, incidentally, the entire drawings like reference numerals are used to designate the same or similar elements .

[0048] 本发明的示范实施例提供多种多通讯协议的数据传输方法及其装置。 [0048] Data transmission method and apparatus of an exemplary embodiment of the present invention provide a variety of multiple communication protocols. 这些多通讯协议的数据传输方法及其装置根据使用者根据多通讯协议的一目前所使用的设定配置文件、目前传输速率值与传输速率门坎值的比较结果、或目前传输流通量与传输流通量门坎值的比较结果,来选择多通讯协议共存操作时的一个传输模式。 Data transmission method and apparatus in accordance with the multi-protocol communication profile setting a user currently using the multi-communication protocol, the current comparison result of the transmission rate and transmission rate value threshold value, or the current transmission throughput and transmission Circulation comparison of the amount of the threshold value, selecting a transmission mode to a multi-protocol coexistence operations. 以下将利用图1A与图1B来介绍引发本发明的核心概念的无线多通讯协议传输实验结果。 The results below using multiple wireless communication protocol transmission and 1B causes a core to introduce the concept of the present invention, FIG. 1A.

[0049] 图1A表示一个W1-Fi装置使用自适应跳频扩频(AFHSS)技术在三种不同状况下的传收数据流通量。 [0049] Figure 1A shows a W1-Fi device using an adaptive frequency hopping spread spectrum (AFHSS) transceiving data throughput technique at three different conditions. 首先请参照图1A,图1A中的第I种状况(即图1A中横轴标示为I上方的柱形图111、112)为所述的W1-Fi装置使用AFHSS传输模式传收数据时,与此W1-Fi装置共存的一个蓝牙鼠标并未连结至同时内嵌W1-Fi装置与蓝牙装置的电子装置,并且蓝牙鼠标被禁能(disabled)。 First Referring to FIG. 1A, FIG. 1A Case I situation (i.e. horizontal axis denoted in FIG. 1A is a bar graph 111 I above) using AFHSS transmission mode for said transceiving means W1-Fi data, this coexists W1-Fi Bluetooth mouse is not linked to a built-in electronic device while W1-Fi device and the Bluetooth device, and Bluetooth mouse is disabled (disabled). 图1A中的第2种状况(即图1A中横轴标示为2上方的柱形图113、114)为所述的W1-Fi装置使用AFHSS传输模式传收数据的同时,与此W1-Fi装置共存的一个蓝牙鼠标已经连结至内嵌W1-Fi装置与蓝牙装置的电子装置,但是蓝牙鼠标静止不动。 Figure 1A of two kinds of status (i.e., the horizontal axis in FIG. 1A is a bar graph labeled 2 above 113,114) used for said transmission mode AFHSS W1-Fi device transceiving data simultaneously, this W1-Fi Bluetooth coexists mouse has a link to an embedded electronic device W1-Fi device and the Bluetooth device, the Bluetooth mouse stationary. 图1A中柱形图111、112上方所示的百分比值为0%,因为柱形图111、112为其它两个状况的比较基准。 The percentages indicated above the bar graph in FIG. 1A 0% 111, 112, 111, 112 as the bar chart of the other two baseline conditions. 图1A中柱形图113、114上方所示的百分比值1%与-1%分别代表W1-Fi装置的传送数据流通量增加I %,而W1-Fi装置的接收数据流通量降低I %。 Percentage of 1% and 1% above the bar graph shown in FIG. 1A 113,114 representing the data transfer apparatus W1-Fi circulation increase I%, receives data W1-Fi devices reduce circulation I%.

[0050] 图1A中的第3种状况(即图1A中横轴标示为3上方的柱形图115、116)为所述的W1-Fi装置使用AFHSS传输模式传收数据的同时,与此W1-Fi装置共存的一个蓝牙鼠标已经连结至内嵌W1-Fi装置与蓝牙装置的电子装置,并且使用者持续操作(或移动)蓝牙鼠标。 [0050] Figure 1A of three kinds of conditions (i.e., the horizontal axis of FIG. 1A is a bar graph 3 above designated 115, 116) using the transmission mode is AFHSS W1-Fi device transceiving data simultaneously, and this W1-Fi coexists mouse has a Bluetooth link to the embedded electronic device W1-Fi device and the Bluetooth device, and the user continues to operate (or mobile) Bluetooth mouse. 因此,第3种状况中的蓝牙鼠标与电子装置之间的数据传输会较频繁。 Thus, data transmission between the third kind of status the electronic device and the Bluetooth mouse would be more frequent. 图1A中柱形图115、116上方所示的百分比值为-1%与0%分别代表W1-Fi装置的传送数据流通量降低I %,而W1-Fi装置的接收数据流通量没有改变。 The percentages indicated above the bar graph in FIG. 1A 115,116 -1% to 0% representing the transfer data W1-Fi devices reduce circulation I%, receives data throughput W1-Fi device is not changed.

[0051] 图1B表示一个W1-Fi装置使用时分多工(TDM)技术在三种不同状况下的传收数据流通量。 [0051] FIG 1B shows a W1-Fi device using time division multiplexing (TDM) technique transceiving data throughput under three different conditions. 请参照图1B,图1B中的第I种状况(即图1B中横轴标示为I上方的柱形图121,122)为所述的W1-Fi装置使用TDM传输模式传收数据的同时,与此W1-Fi装置共存的一个蓝牙鼠标并未连结至内嵌W1-Fi装置与蓝牙装置的电子装置,并且蓝牙鼠标被禁能(disabled)。 Referring to FIG. 1B, FIG. 1B Case I situation (i.e. horizontal axis denoted in FIG. 1B is a bar graph 121 I above) W1-Fi devices simultaneously using a TDM transmission mode of said data transceiving, and this W1-Fi Bluetooth coexists a mouse is not linked to the embedded electronic means W1-Fi and Bluetooth devices and Bluetooth mouse is disabled (disabled). 图1B中柱形图121、122上方所示的百分比值为0%,因为这柱形图121、122为其它两个状况的比较基准。 The percentages indicated above the bar graph in FIG. IB 0% 121, 122, 121, 122, because it is a bar graph other two baseline conditions.

[0052] 图1B中的第2种状况(即图1B中横轴标示为2上方的柱形图123、124)为所述的W1-Fi装置使用TDM传输模式传收数据的同时,与此W1-Fi装置共存的一个蓝牙鼠标已经连结至内嵌W1-Fi装置与蓝牙装置的电子装置,但是蓝牙鼠标静止不动。 [0052] FIG. 1B second type conditions (i.e., the horizontal axis in FIG. 1B above 2 bar graph labeled 123, 124) simultaneously W1-Fi device uses TDM transmission mode of the received data transmission, and this W1-Fi coexists mouse has a Bluetooth link to the embedded electronic device W1-Fi device and the Bluetooth device, the Bluetooth mouse stationary. 图1B中柱形图123、124上方所示的百分比值-6%与-4%分别代表W1-Fi装置的传送数据流通量降低6%,而W1-Fi装置的接收数据流通量降低4%。 FIG. 1B above the bar graph 123, shown in percentage values ​​of -4% -6% respectively represent the data transfer apparatus W1-Fi circulation by 6%, while the data receiving apparatus W1-Fi flux decreased by 4% .

[0053] 图1B中的第3种状况(即图1B中横轴标示为3上方的柱形图125、126)为所述的W1-Fi装置使用TDM传输模式传收数据的同时,与此W1-Fi装置共存的一个蓝牙鼠标已经连结至内嵌W1-Fi装置与蓝牙装置的电子装置,并且使用者持续操作(或移动)蓝牙鼠标。 [0053] FIG. 1B A third condition (i.e., the horizontal axis in FIG. 1B above 3 bar graph labeled 125, 126) simultaneously W1-Fi device uses TDM transmission mode of the received data transmission, and this W1-Fi coexists mouse has a Bluetooth link to the embedded electronic device W1-Fi device and the Bluetooth device, and the user continues to operate (or mobile) Bluetooth mouse. 因此,第3种状况中的蓝牙鼠标与电子装置之间的数据传输会较频繁。 Thus, data transmission between the third kind of status the electronic device and the Bluetooth mouse would be more frequent. 图1B中柱形图125、126上方所示的百分比值为-20%与-28%分别代表W1-Fi装置的传送数据流通量降低20%,而W1-Fi装置的接收数据流通量降低28%。 125, 126 as shown in a bar graph the percentage of the top of FIG. 1B is -20% -28% respectively represent the transmitting device W1-Fi data throughput is reduced by 20%, while the reception data W1-Fi devices reduce the flux 28 %.

[0054] 通过比较图1A与图1B可以发现W1-Fi装置传输在TDM传输模式下,当蓝牙装置有数据传输时,明显有传收数据流通量降低的问题。 [0054] can be found by comparing FIGS. 1A and 1B W1-Fi device is transmitted in TDM transmission mode, the Bluetooth device when data is transmitted, obviously transceiving data throughput decreases. 尤其在蓝牙装置不断地与电子装置进行数据传输时,W1-Fi装置的传收数据流通量降低的状况更加严重。 Particularly when the Bluetooth device continuously transfer data from the electronic device, the data transceiving devices W1-Fi flux decreased more serious condition. 因此,根据上述这两个图表所呈现的实验结果(图1A与图1B),可以找出方法来改善目前电子装置的内嵌W1-Fi模块与蓝牙模块共存操作时的互相干扰问题,并进一步提升使用者的使用体验。 Thus, both of the above experimental results presented in the graph (FIG. 1A and FIG. IB), can find ways to improve the mutual interference problem is currently embedded W1-Fi module and Bluetooth module coexistence operation of the electronic device, and further improve the user experience. 以下将图2至图4来介绍引发本发明多通讯协议的数据传输方法,并以图5来介绍多通讯协议的数据传输装置。 2 to FIG. 4 describes the data transmission method of multi-protocol initiator present invention will be view in FIG. 5 and the data transmission means to introduce a multi-protocol communications.

[0055] 请同时参照图2与图5,图2是根据本发明的第一示范实施例所绘示一种多通讯协议的数据传输方法200的流程图,图5是根据本发明的一示范实施例所绘示一种具有多通讯协议的数据传输装置的电子装置500的系统方块图。 [0055] Please refer to FIGS. 2 and FIG. 5, FIG. 2 is a flow diagram illustrating a multi-protocol data transmission method 200 according to the first exemplary embodiment of the present invention, FIG 5 is an exemplary of the present invention. the electronic device having a diagram illustrating a multi-protocol data transmission apparatus of the embodiment of the system block 500 of FIG. 在本示范实施例中,所述的方法200由步骤201开始,首先在步骤S201中,识别第一通讯协议目前使用的设定配置文件,并且根据第一通讯协议目前使用的设定配置文件,选择第一通讯协议与第二通讯协议同时使用跳频扩频传输模式或多工传输模式。 In the present exemplary embodiment, the method 200 begins at step 201, the profile is first set in step S201, the identification of the first communication protocol currently used, and setting the profile currently in use according to a first communication protocol, selecting a first protocol and a second communication protocol while using frequency hopping spread spectrum transmission mode or multi-station transmission mode.

[0056] 在本示范实施例中,第一通讯协议目前使用的设定配置文件可以例如为个人性化接口装置传输协议(HID)设定配置文件,或蓝牙立体声音频传输协议设定配置文件(A2DP)。 [0056] In the present exemplary embodiment, the first communication protocol setting configuration file may be used, for example, the current set of individual profiles for Transport Protocol Interface Device (the HID), or Bluetooth stereo audio setting configuration file transfer protocol ( A2DP). 当设定配置文件识别单元531识别第一通讯协议目前使用的设定配置文件为一个高传输量设定配置文件(例如,A2DP设定配置文件)时,传输模式选择单元532选择第一通讯协议与第二通讯协议同时使用多工传输模式。 When setting the configuration file identification unit 531 to identify the first communication protocol setting configuration file currently used by setting the profile for a high transmission capacity (e.g., A2DP profile set), the transmission mode selection unit 532 selects the first communication protocol and the second communication protocol using multi-mode transmission simultaneously. 因为高传输量设定配置文件(例如,蓝牙装置使用A2DP设定配置文件来传收实时的语音数据)需要较高的数据传输速率,使用多工传输模式可以确保使用者体验较佳的需求。 Because of the high transfer amount setting profile (e.g., a Bluetooth device using A2DP profile is set close to real-time voice transmission data) require a higher data transmission rate, the use of multi-transport mode ensures better user experience requirements. 第二通讯协议(例如,W1-Fi装置进行单纯的传输数据)的数据传输量模式为较丛发性(bursty),在多工传输模式下,较不易让使用者察觉有明显的运作效率降低。 Amount of data transfer mode of the second communication protocol (e.g., W1-Fi data transmission apparatus simply) than for bursty (in a bursty), in multiplex transmission mode, there is less likely to allow users to detect significantly reduced operational efficiency . 相反地,当设定配置文件识别单元531识别设定配置文件为一个低传输量设定配置文件(例如,HID设定配置文件)时,传输模式选择单元532选择第一通讯协议与第二通讯协议同时使用跳频扩频传输模式,以维持第二通讯协议(例如,W1-Fi装置进行单纯的传输数据)的传输流通量。 Conversely, when the configuration file identification set of identification setting unit 531 set the profile of a low-profile transfer amount (e.g., HID setting configuration file), the transmission mode selection unit 532 selects the first communication protocol and the second communication protocol while using frequency hopping spread spectrum transmission mode, to maintain a second communication protocol (e.g., W1-Fi simple apparatus for transmitting data) transmission throughput.

[0057] 步骤S201又可以分为步骤S202、S204与S206。 [0057] Step S201 can be divided into steps S202, S204 and S206. 在步骤S202中,设定配置文件识别单元531识别第一通讯协议目前使用的设定配置文件为低传输量设定配置文件或高传输量设定配置文件。 In step S202, the setting configuration file identification unit 531 identifies the first protocol used by the current setting configuration file setting profile or high profile transfer amount is set to a low throughput. 若设定配置文件为低传输量设定配置文件,则接着执行步骤S206 ;相反地,若设定配置文件为高传输量设定配置文件,则接着执行步骤S204。 If the configuration file is set to a low profile set transfer amount, the sequence proceeds to step S206; conversely, if the configuration file is set to a high profile set transfer amount, the sequence proceeds to step S204. 在步骤S204中,传输模式选择单元532选择第一通讯协议与第二通讯协议同时使用多工传输模式。 In step S204, the transmission mode selection unit 532 selects the first communication protocol and the second protocol multiplexing transmission mode simultaneously. 在步骤S204之后,结束整个多通讯协议的数据传输方法200。 After step S204, it ends the data transmission method of the entire multi-communication protocol 200. 在步骤S206中,传输模式选择单元532选择第一通讯协议与第二通讯协议同时使用跳频扩频传输模式。 In step S206, the transmission mode selection unit 532 selects the first communication protocol and a second protocol using a frequency hopping spread-spectrum transmission mode simultaneously. 在步骤S206之后,则执行步骤S208。 After step S206, it proceeds to step S208.

[0058] 再举例来进一步说明所述的方法200的步骤S201的细部动作。 [0058] For another example to further illustrate the process of the detailed operation of the step S201 is 200. 假设使用者对于蓝牙设备实时性的使用者体验较为重视时,例如:使用者正在使用蓝牙耳机,其使用的设定配置文件为A2DP设定配置文件,以达到48千赫兹(简称为kHz)且数据所须传输速率超过大约921每秒千位(简称为kbps)。 When the user is assumed for Bluetooth devices real-time user experience more emphasis, for example: the user is using a Bluetooth headset, which is used to set the profile to set the profile A2DP, to achieve 48 kHz (referred to as kHz) and the required data transmission rate in excess of about 921 kilobits per second (abbreviated as kbps). 所述的方法200会察觉到第一通讯协议正在使用高传输量设定配置文件,所以方法200选择第一通讯协议与第二通讯协议同时使用多工传输模式,以维持稳定实时性服务所需的传输速率或传输流通量,进而保持良好的使用者体验。 The method of claim 200 will perceive the first communication protocol being used to set the amount of high transmission profile, the method 200 selects a first protocol and a second protocol using both multi-transport mode, to maintain a stable desired real-time service the transmission rate or transmission throughput, so as to maintain a good user experience. 因此,使用者所听到(即相对电子装置的接收端)的实时性声音不会出现断断续续的音频质量。 Thus, the user hear (i.e., opposite ends of the receiving electronic device) does not occur in real-time intermittent voice audio quality.

[0059] 另外,在此要说明的是,跳频扩频传输模式可以是自适应跳频扩频传输模式,且多工传输模式可以是时分多工模式、码分多工模式或自适应时分多工模式。 [0059] Further, here be noted that the frequency-hopping spread-spectrum transmission mode may be adaptive frequency hopping spread-spectrum transmission mode, and the multi-transport mode may be a mode of time-division multiplexing, code division multiplexing or adaptive time division duplex mode multi-mode. 除此之外,在本不范实施例中,当第一通讯协议与第二通讯协议同时使用所述的多工传输模式时,可以将第一通讯协议所欲传送的数据从第一通讯协议的第一媒体存取控制层转交给第二通讯协议的第二媒体存取控制层处理后,再通过第二通讯协议的物理层传送。 In addition, in the present embodiment is not Van embodiment, when the first protocol and the second communication protocol using the multi-station simultaneous transmission mode, desired data may be transmitted first protocol from the first communication protocol after the second media access control layer of a first transfer medium to the second access control protocol layer processing, and then transmitted through a second physical layer communication protocol.

[0060] 接着,在步骤S208中,传输流通量检测单元533检测第一通讯协议的目前传输流通量。 [0060] Next, in step S208, the current transmission transfer circulation flux detecting unit 533 detects the first communication protocol. 在步骤S208之后,持续进行步骤S210。 After step S208, continues the step S210. 在步骤S210中,传输流通量比较单元534判断第一通讯协议的目前传输流通量是否大于一个传输流通量门坎值。 In step S210, the transmission throughput comparing unit 534 determines whether the current transmission throughput is larger than a first protocol transmission throughput threshold value. 在此示范实施例中,传输流通量门坎值例如是I每秒兆位(简称为Mbps)。 In this exemplary embodiment, the transmission throughput threshold value, for example, I Megabits per second (abbreviated as Mbps). 但是本发明并不限定于此,还可以依据实际需要来挑选适当的传输流通量门坎值。 However, the present invention is not limited thereto, it may also be suitable to select the threshold value based on the actual transmission throughput needs. 另外,所述的传输流通量计算方式需要一定时间的观察与搜集相关流通量数据,所以可能还需要限定在一个流通量数据统计时间或流通量数据统计周期(例如,20秒)内计算完成。 Further, the transmission throughput calculation time required to observe a certain circulation and collect relevant data, it may also be necessary to define a calculated throughput in data throughput statistics or statistical time period (e.g., 20 seconds) is completed. 但是本发明并不限定于此,还可以依据实际需要来挑选适当的流通量数据统计时间。 However, the present invention is not limited thereto, it may also be appropriate to select a statistical time data throughput according to the actual needs. 若第一通讯协议的目前传输流通量大于一个传输流通量门坎值,则在步骤S210之后,持续进行步骤S204。 If the current transmission throughput is larger than a first protocol transmission throughput threshold, then after step S210, it continues to step S204. 若第一通讯协议的目前传输流通量未大于一个传输流通量门坎值,则在步骤S210之后,接着进行步骤S212。 If the first communication protocol is a transmission currently in circulation is greater than the threshold value of the transmission is not in circulation, after the step S210, and then proceeds to step S212.

[0061] 在步骤S212中,传输速率检测单元535检测第一通讯协议的目前传输速率。 [0061] In step S212, the transmission rate detecting unit 535 detects the current communication protocol of the first transmission rate. 在步骤S212之后,接着进行步骤S214。 After step S212, the next step S214. 在步骤S214中,传输速率比较单元536判断第一通讯协议的目前传输速率值是否大于一个传输速率门坎值。 In step S214, the transmission rate comparison unit 536 determines whether the current transmission rate value is larger than the first communication protocol is a transmission rate threshold value. 在此不范实施例中,传输速率门坎值例如是500kbps至IMbps的任意值。 In this embodiment the range is not the transmission rate value threshold value, for example, any of IMbps to 500kbps. 但是本发明并不限定于此,还可以依据实际需要来挑选适当的传输速率门坎值。 However, the present invention is not limited thereto, it may also be suitable to select the threshold value based on the actual transmission rate needed. 若第一通讯协议的目前传输速率值大于一个传输速率门坎值,则在步骤S214之后,持续进行步骤S204。 If the current transmission rate of the first communication protocol transmission rate value is greater than a threshold value, after the step S214, it continues to step S204. 若第一通讯协议的目前传输速率值未大于一个传输速率门坎值,则在步骤S214之后,结束整个多通讯协议的数据传输方法200。 If the current transmission rate of the first communication protocol is a transmission rate value is not greater than the threshold value, then after the step S214, the data transmission method 200 ends the entire multi-protocol communications.

[0062] 要说明的是,步骤S208、S210可以与步骤S212、S214对调顺序。 [0062] It is noted that steps S208, S210 may be the step S212, S214 reversed order. 换言之,图2各步骤的顺序并非用以限制本发明。 In other words, the order of the steps of FIG. 2 are not intended to limit the present invention. 除此之外,步骤S208、S210、S212、S214亦可以移除。 In addition, steps S208, S210, S212, S214 can also be removed. 加上步骤S208、S210、S212、S214的数据传输方法200是为了确保使用者在第一通讯协议的设定配置文件虽然是低传输量设定配置文件,但其传输量却并非低传输量的情况下,依然可以有较佳的体验感受。 Plus step S208, S210, S212, S214, the data transmission method 200 is set to ensure that the user profile is a first communication protocol, although the transmission amount is set low profile, but it is not the amount of transmission of a low transfer amount case, you can still have a better experience feelings. 另外,在本示范实施例中,第一通讯协议亦可以是蓝牙通讯协议、一种近距离无线传输通讯协议或一种无线个人网络通讯协议。 Further, in the present exemplary embodiment, the first communication protocol may also be a Bluetooth protocol, a short-range wireless communication protocol, or transmission in a wireless personal network protocol. 第二通讯协议可以是IEEE802.11通讯协议、一种无线局域网络通讯协议或一种无线保真度通讯协议(W1-Fi)。 The second communication protocol may be IEEE802.11 communication protocol in a wireless local area network protocol or protocol in a wireless fidelity (W1-Fi).

[0063] 图3是根据本发明的第二示范实施例所绘示另一种多通讯协议的数据传输方法300的流程图。 [0063] FIG. 3 is a flowchart illustrating a data transmission method depicted embodiment of another multi-protocol 300 according to a second exemplary embodiment of the present invention. 请同时参照图3与图5,在本示范实施例中,所述的方法300与方法200大致上相类似,两者不同之处在于方法300先根据第一通讯协议目前传输流通量与对应的传输流通量门坎值的比较结果,来选择第一通讯协议与第二通讯协议同时使用的传输模式。 Referring to FIG. 3 and FIG. 5, in the present exemplary embodiment, the method 300 and method 200 is substantially similar, except that the two first current transmission method 300 according to the first flux and the corresponding communication protocol transmission throughput comparison result of the threshold value, selects the transmission mode of the first communication protocol and the second communication protocol used at the same time. 在本示范实施例中,所述的方法300由步骤S301开始,首先在步骤S301中,检测第一通讯协议的目前传输流通量,并且根据第一通讯协议的目前传输流通量,选择第一通讯协议与第二通讯协议同时使用跳频扩频传输模式或多工传输模式。 In the present exemplary embodiment, the method 300 begins with a step S301, in step S301, the detection of the first transmission protocol is currently in circulation, and the current transmission in accordance with a first communication protocol throughput, selecting the first communication a second communication protocol while using frequency hopping spread spectrum protocol transmission mode or multi-station transmission mode.

[0064] 步骤S301又可以分为步骤S302、S304、S306与S308。 [0064] Step S301 can be divided into steps S302, S304, S306 and S308. 在步骤S302中,传输流通量检测单元533检测第一通讯的目前传输流通量。 In step S302, the detection unit 533 detects transmission current flux transmission throughput of the first communication. 在步骤S302之后,继续进行步骤S304。 After step S302, proceed to step S304. 在步骤S304中,传输流通量比较单元534判断第一通讯协议的目前传输流通量是否大于一个传输流通量门坎值。 Whether In step S304, the transmission of the first communication protocol is determined throughput comparing unit 534 is greater than a present transmission throughput transmission throughput threshold value. 在此示范实施例中,传输流通量门坎值例如是1Mbps。 In this exemplary embodiment, the transmission throughput threshold value, for example 1Mbps. 但是本发明并不限定于此,还可以依据实际需要来挑选适当的传输流通量门坎值。 However, the present invention is not limited thereto, it may also be suitable to select the threshold value based on the actual transmission throughput needs. 若第一通讯协议的目前传输流通量大于一个传输流通量门坎值,则在步骤S304之后,持续进行步骤S306 ;相反地,若第一通讯协议的目前传输流通量未大于一个传输流通量门坎值,则在步骤S304之后,进行步骤S308。 If the current transmission throughput is larger than a first protocol transmission throughput threshold, then after step S304, the step S306 is continued; the contrary, if the first communication protocol is not greater than a present transmission throughput transmission throughput threshold value , then after step S304, the step S308. 在步骤S306中,传输模式选择单元532选择第一通讯协议与第二通讯协议同时使用多工传输模式。 In step S306, the transmission mode selection unit 532 selects the first communication protocol and the second protocol multiplexing transmission mode simultaneously. 在步骤S306之后,结束整个多通讯协议的数据传输方法300。 After step S306, the data transmission method of the entire multi-end communication protocol 300. 在步骤S308中,传输模式选择单元532选择第一通讯协议与第二通讯协议同时使用跳频扩频传输模式。 In step S308, the transmission mode selection unit 532 selects the first communication protocol and a second protocol using a frequency hopping spread-spectrum transmission mode simultaneously. 在步骤S308之后,则执行步骤S310。 After step S308, it proceeds to step S310.

[0065] 接着,在步骤S310中,设定配置文件识别单元531识别第一通讯协议目前使用的设定配置文件为低传输量设定配置文件或高传输量设定配置文件。 [0065] Next, in step S310, the setting is set profile configuration file identification unit 531 identifies the first communication protocol currently used as a low profile or the transfer amount setting high transfer amount setting configuration file. 若设定配置文件为低传输量设定配置文件,则接着执行步骤S312 ;相反地,若设定配置文件为高传输量设定配置文件,则持续进行步骤S306。 If the configuration file is set to a low profile set transfer amount, the sequence proceeds to step S312; conversely, if the configuration file is set to a high profile set transfer amount, then continues to step S306. 在步骤S312中,传输速率检测单元535检测第一通讯协议的目前传输速率。 In step S312, the transmission rate detecting unit 535 detects the current communication protocol of the first transmission rate. 在步骤S312之后,持续进行步骤S314。 After step S312, continues the step S314. 在步骤S314中,传输速率比较单元536判断第一通讯协议的目前传输速率值是否大于一个传输速率门坎值。 In step S314, the transmission rate comparison unit 536 determines that the current transmission rate value is larger than the first communication protocol a transmission rate threshold value. 在此示范实施例中,传输速率门坎值例如是500kbps至IMbps的任意值。 In this exemplary embodiment, the transmission rate value threshold value, for example, any of IMbps to 500kbps. 但是本发明并不限定于此,还可以依据实际需要来挑选适当的传输速率门坎值。 However, the present invention is not limited thereto, it may also be suitable to select the threshold value based on the actual transmission rate needed. 若第一通讯协议的目前传输速率值大于一个传输速率门坎值,则在步骤S314之后,持续进行步骤S306 ;相反地,若第一通讯协议的目前传输速率值未大于一个传输速率门坎值,则在步骤S314之后,结束整个多通讯协议的数据传输方法300。 If the current transmission rate of the first communication protocol transmission rate value is greater than a threshold value, after the step S314, the step S306 is continued; the contrary, if the current transmission rate value of the first communications protocol does not exceed a transmission rate threshold value, after step S314, the data transmission method of the entire multi-end communication protocol 300.

[0066] 要说明的是,步骤S310可以与步骤S312、S314对调顺序。 [0066] It is noted that step S310 may be the step S312, S314 reversed order. 换言之,图3中各步骤的顺序并非用以限制本发明。 In other words, the order of the steps in FIG. 3 are not intended to limit the present invention. 除此之外,步骤S310、S312、S314亦可以移除。 In addition, steps S310, S312, S314 can also be removed. 加上步骤S310、S312、S314的数据传输方法300是为了确保当第一通讯协议的设定配置文件为高传输量设定配置文件时,适当地调整第一通讯协议与第二通讯协议同时使用多工传输模式,使得使用者可以有较佳的体验感受。 Plus step S310, S312, S314, the data transmission method 300 is to ensure that when the first communication protocol setting configuration file setting profiles for a high transmission capacity, appropriately adjusted first communication protocol and a second protocol using both multiplexing transmission mode, so that the user can have a better experience feelings.

[0067] 图4是根据本发明的第三示范实施例所绘示另一种多通讯协议的数据传输方法400的流程图。 [0067] FIG 4 is a third exemplary embodiment of the present invention is a method flowchart of a data transmission of another multi-protocol 400 depicted. 请参照图4,在本示范实施例中,所述的方法400与方法300大致上相类似,两者不同之处在于方法400先根据第一协议的目前传输速率值与对应的传输速率门坎值的比较结果,来选择第一通讯协议与第二通讯协议同时使用的传输模式。 Referring to FIG 4, in the present exemplary embodiment, the method 400 and method 300 is substantially similar, except that both the method according to the transmission rate 400 to the current value of transmission rate value of the first protocol with the corresponding threshold comparison result, selects a transmission mode of the first communication protocol and a second protocol used simultaneously. 在本示范实施例中,所述的方法400由步骤S401开始,首先在步骤S401中,检测第一通讯协议的目前传输速率,并且根据第一通讯协议的目前传输速率量,选择第一通讯协议与第二通讯协议同时使用跳频扩频传输模式或多工传输模式。 In the present exemplary embodiment, the method 400 begins step S401, the first, in step S401, the transmission rate of the first current detection protocol and transmission rate based on the current amount of the first communications protocol, to select a first communication protocol and second frequency hopping spread spectrum communication protocol transmission mode or multi-station simultaneous transmission mode.

[0068] 步骤S401又可以分为步骤S402、S404、S406与S408。 [0068] Step S401 can be divided into steps S402, S404, S406 and S408. 在步骤S402中,传输速率检测单元535检测第一通讯的目前传输速率。 In step S402, the current transmission rate of the transmission rate detecting unit 535 detects the first communication. 在步骤S402之后,继续进行步骤S404。 After step S402, proceed to step S404. 在步骤S404中,传输速率比较单元536判断判断第一通讯协议的目前传输速率是否大于一个传输速率门坎值。 In step S404, the transmission rate comparison determination unit determines the first communication protocol 536 is greater than the current transmission rate is a transmission rate threshold value. 在此示范实施例中,传输速率门坎值例如是500kbps至IMbps的任意值。 In this exemplary embodiment, the transmission rate value threshold value, for example, any of IMbps to 500kbps. 但是本发明并不限定于此,还可以依据实际需要来挑选适当的传输速率门坎值。 However, the present invention is not limited thereto, it may also be suitable to select the threshold value based on the actual transmission rate needed. 若第一通讯协议的目前传输速率值大于一个传输速率门坎值,则在步骤S404之后,持续进行步骤S406 ;相反地,若第一通讯协议的目前传输速率值未大于一个传输速率门坎值,则在步骤S404之后,持续进行步骤S408。 If the current transmission rate of the first communication protocol transmission rate value is greater than a threshold value, after the step S404, the step S406 is continued; the contrary, if the current transmission rate value of the first communications protocol does not exceed a transmission rate threshold value, after step S404, continues the step S408. 在步骤S406中,传输模式选择单元532选择第一通讯协议与第二通讯协议同时使用多工传输模式。 In step S406, the transmission mode selection unit 532 selects the first communication protocol and the second protocol multiplexing transmission mode simultaneously. 在步骤S406之后,结束整个多通讯协议的数据传输方法 After step S406, it ends the data transmission method of the entire multi-communication protocol

300。 300. 在步骤S408中,传输模式选择单元532选择第一通讯协议与第二通讯协议同时使用跳频扩频传输模式。 In step S408, the transmission mode selection unit 532 selects the first communication protocol and a second protocol using a frequency hopping spread-spectrum transmission mode simultaneously. 在步骤S408之后,则执行步骤S410。 After step S408, it proceeds to step S410.

[0069] 接着,在步骤S410中,设定配置文件识别单元531识别第一通讯协议目前使用的设定配置文件为低传输量设定配置文件或高传输量设定配置文件。 [0069] Next, in step S410, the setting is set profile configuration file identification unit 531 identifies the first communication protocol currently used as a low profile or the transfer amount setting high transfer amount setting configuration file. 若设定配置文件为低传输量设定配置文件,则接着执行步骤S412 ;相反地,若设定配置文件为高传输量设定配置文件,则持续进行步骤S406。 If the configuration file is set to a low profile set transfer amount, the sequence proceeds to step S412; conversely, if the configuration file is set to a high profile set transfer amount, then continues the step S406. 在步骤S412中,传输流通量检测单元533检测第一通讯的目前传输流通量。 In step S412, the detection unit 533 detects transmission current flux transmission throughput of the first communication. 在步骤S412之后,持续进行步骤S414。 After step S412, continues the step S414. 在步骤S414中,传输流通量比较单元534判断判断第一通讯协议的目前传输流通量是否大于一个传输流通量门坎值。 Whether In step S414, the transmission determining throughput determination the first communication protocol unit 534 comparing the current transmission throughput is larger than a threshold value of the transmission throughput. 在此示范实施例中,传输流通量门坎值例如是1Mbps。 In this exemplary embodiment, the transmission throughput threshold value, for example 1Mbps. 但是本发明并不限定于此,还可以依据实际需要来挑选适当的传输流通量门坎值。 However, the present invention is not limited thereto, it may also be suitable to select the threshold value based on the actual transmission throughput needs. 若第一通讯协议的目前传输流通量大于一个传输流通量门坎值,则在步骤S414之后,持续进行步骤S406 ;相反地,若第一通讯协议的目前传输流通量未大于一个传输流通量门坎值,则在步骤S414之后,结束整个多通讯协议的数据传输方法400。 If the current transmission throughput is larger than a first protocol transmission throughput threshold, then after step S414, the step S406 is continued; the contrary, if the first communication protocol is not greater than a present transmission throughput transmission throughput threshold value , then after step S414, the data transmission method of the entire multi-end communication protocol 400.

[0070] 要说明的是,步骤S410可以与步骤S412、S414对调顺序。 [0070] It is noted that step S410 may be the step S412, S414 reversed order. 换言之,图4中各步骤的顺序并非用以限制本发明。 In other words, the sequence of steps in Figure 4 are not intended to limit the present invention. 除此之外,步骤S410、S412、S414亦可以移除。 In addition, steps S410, S412, S414 can also be removed. 加上步骤S410、S412、S414的数据传输方法400是为了确保当第一通讯协议的设定配置文件为高传输量设定配置文件时,适当地调整第一通讯协议与第二通讯协议同时使用多工传输模式,使得使用者可以有较佳的体验感受。 Plus step S410, S412, S414 of the data transmission method 400 is to ensure that when the first communication protocol setting configuration file setting profiles for a high transmission capacity, appropriately adjusted first communication protocol and a second protocol using both multiplexing transmission mode, so that the user can have a better experience feelings.

[0071] 本发明并非限定于上述的方法200、300与400。 [0071] The present invention is not limited to the above-described methods 200, 300 and 400. 在本发明的其它示范实施例中,本发明还可以运用在内嵌超过两种通讯协议的电子装置上(例如,电子装置还包括全球互通微波存取(WiMAX)系统通讯协议,以及宽带码分多址接入(WCDMA)系统通讯协议),并可以根据前述的三个主要判断条件,例如:第一协议目前传输流通量、第一通讯协议目前传输速率值以及第一通讯协议目前使用的设定配置文件,来逐步确认部分或全部通讯协议同时使用的传输模式。 In another exemplary embodiment of the present invention, the present invention may also be used in the built-in electronic devices more than two communication protocols (e.g., the electronic device further comprises a WiMAX (WiMAX) communication system protocol, and wideband code division a first transmission protocol is currently in circulation is provided, the first communication protocol and the current transmission rate value of the first communication protocol currently used: multiple access (WCDMA) system protocol), and can be determined according to the aforementioned three main conditions, e.g. given profile, stepwise acknowledgment transmission mode portion or all of the communication protocols used simultaneously. 介绍完多通讯协议的数据传输方法后,以下将以图5详细介绍一种多通讯协议的数据传输装置。 After data transmission method describes a multi-protocol communication, the data transmission apparatus will be described in detail with a multi-protocol of FIG.

[0072] 请参照图5,在本示范实施例中,电子装置500至少包括第一通讯协议模块510、第二通讯协议模块520、多通讯协议的数据传输装置530、存储器模块540、处理器模块550与天线模块560。 [0072] Referring to FIG 5, in this embodiment, the data transmission 500 includes at least a first communication protocol module 510 of the electronic device, a second communication protocol module 520, multi-protocol communication device 530, a memory module 540, a processor module according to an exemplary embodiment module 560 and the antenna 550. 所述的多通讯协议的数据传输装置530电性连接至第一通讯协议模块510、第二通讯协议模块520、存储器模块540、处理器模块550与天线模块560。 Data transmission 530 electrically said plurality communication protocol means connected to the first communication protocol module 510, a second communication protocol module 520, memory module 540, the processor module 550 and the antenna module 560. 第一通讯协议模块510耦接至第二通讯协议模块520。 A first communication protocol module 510 is coupled to a second communications protocol module 520. 第一通讯协议模块510与第二通讯协议模块520电性连接至存储器模块540、处理器模块550与天线模块560。 A first communication protocol module 510 and the module 520 is electrically connected to a second protocol to a memory module 540, the processor module 550 and the antenna module 560. 另外,存储器模块540电性连接至处理器模块550。 Further, the memory module 540 is electrically connected to the processor module 550.

[0073] 请参照图5,电子装置500通过第一通讯协议模块510与外围使用第一通讯协议的装置,例如:蓝牙键盘、蓝牙鼠标与蓝牙耳机等装置建立无线通讯连结。 [0073] Referring to FIG 5, the electronic device 500 according to the first communication protocol by using a first communication protocol module 510 and a peripheral, such as: Bluetooth keyboard, a Bluetooth device such as a mouse with a Bluetooth headset to establish a wireless communication link. 另一方面,电子装置500通过第二通讯协议模块520与外围使用第二通讯协议的装置,例如=W1-Fi无线基地台、内嵌W1-Fi的笔记本型计算机与内嵌W1-Fi的智能型移动电话建立另一类型的无线通讯连结。 On the other hand, the electronic device 500 of the second device using the second communication protocol communication protocol module 520 and a peripheral, such as = W1-Fi hotspot, W1-Fi embedded in notebook computers and embedded intelligence W1-Fi the establishment of another type of mobile phone type of wireless communication link. 在本示范实施例中,所述的第一通讯协议可以为蓝牙通讯协议、一种近距离无线传输通讯协议与一种无线个人网络通讯协议。 In the present exemplary embodiment, the first communication protocol may be a Bluetooth communication protocol, a short-range wireless transmission protocol in a wireless personal communication network protocols. 在本示范实施例中,所述的第二通讯协议可以为IEEE 802.11通讯协议、一种无线局域网络通讯协议与一种无线保真度通讯协议(W1-Fi)。 In the present exemplary embodiment, the second communication protocol may be IEEE 802.11 protocols, wireless local area network protocols and protocol in a wireless fidelity (W1-Fi).

[0074] 在本示范实施例中,第一通讯协议模块510与第二通讯协议模块520为独立的通讯协议模块,且各自包括独立的通讯芯片与相关的通讯协议堆栈(protocol stack)。 [0074] In the present exemplary embodiment, a first communication protocol and the second communication protocol module 510 module 520 module independent communication protocol, and each includes a separate communications chip and related communication protocol stack (protocol stack). 另外,第一通讯协议模块510与第二通讯协议模块520之间通过处理器模块550与存储器模块540中的操作系统542来进行沟通与信号传递。 Further, the communication protocol between the first module 510 and the second communication protocol module 520 to communicate with the processor through the signal transmission module 550 and memory module 540 in the operating system 542. 然而本发明并不限并于此,为了降低第一通讯协议模块510与第二通讯协议模块520之间信号传递的时间递延或提升沟通时效,在本发明的其它实施例中,第一通讯协议模块510与第二通讯协议模块520还可以集成在一起成为一个集成性模块,并在两者之间采用电性连结。 However, the present invention is not limited thereto and, in order to reduce the communication protocol signals between the first module 510 and the second communication protocol module 520 to enhance or deferred delivery time communication aging, in other embodiments of the present invention, a first communication protocol module 510 and the second communication protocol module 520 may be integrated together into an integrated module, and the use of electrically connected therebetween. 例如,在两个通讯协议模块之间利用实际芯片脚位之间的连接线路(如图5以虚线形成的连结线路570),来达成两个通讯协议模块之间的直接信号传递,以减少通过操作系统542来进行信号传递的时间延迟。 For example, the communication protocol between the two modules using the connecting line between the actual chip pin (570 in FIG. 5 in phantom line coupling is formed) to achieve a direct signal transmission between the two communication protocol module to be reduced by time OS 542 performs signal transmission delay.

[0075] 若第一通讯协议模块510与第二通讯协议模块520仅有耦接关系时,多通讯协议的数据传输装置530可以通过操作系统542中的对应至第一通讯协议模块510与第二通讯协议模块520的固件来控制这两个通讯协议模块选择使用相同的传输模式。 [0075] When the first communication protocol module 510 and the second communication protocol module 520 only when the coupling relationship, the data transmission device 530 Multi-communication protocol via the operating system 542 corresponding to the first communication protocol module 510 and the second firmware communication protocol module 520 to control module selects the two communication protocols use the same transmission mode. 若第一通讯协议模块510与第二通讯协议模块520之间有电性连接关系时,多通讯协议的数据传输装置530可以通过通知两个通讯协议模块的其中之一来达成两个通讯协议模块选择使用相同的传输模式。 If the electrical connection relationship between the first communication protocol module 510 and the second communication protocol module 520, the data transmission means over 530 communication protocol can be achieved through one of two protocol modules informing two protocol modules choose to use the same transmission mode.

[0076] 第一通讯协议模块510与第二通讯协议模块520在一个近似频带中或一个相同频带中共存操作。 [0076] The first module 510 and the second communication protocol communication protocol module 520 in a band approximately the same frequency band or a coexistence operation. 天线模块560可以包括一或多个天线装置,在本示范实施例中,天线模块560包括多个天线装置,且第一通讯协议模块510与第二通讯协议模块520各自可以使用这些天线装置的其中之一、部分天线装置或全部天线装置。 The antenna module 560 may include one or more antenna device, in the present exemplary embodiment, the antenna module comprises a plurality of antenna devices 560, 510 and the first module and the second communication protocol communication protocol module 520 can use each of the antenna device wherein one, some or all of the antenna device the antenna device. 在本示范实施例中,第一通讯协议模块510与第二通讯协议模块520可以分别或共同通过天线模块560来传收无线信号。 In the present exemplary embodiment, the first communication protocol and the second communication protocol module 510 module 520 may be separately or together through the antenna a wireless signal transceiving module 560. 在本发明的其它示范实施例中,电子装置500还可以包括超过两个通讯协议模块,例如包括全球互通微波存取(WiMAX)系统通讯协议模块,以及宽带码分多址接入(WCDMA)系统通讯协议模块,且各通讯协议模块之间可以采用电性连接的方式。 In another exemplary embodiment of the present invention, the electronic device 500 may further include more than two communication protocol module, for example, comprise WiMAX (WiMAX) communication protocol module system, and the Wideband Code Division Multiple Access (WCDMA) system electrically connected between the communication protocol module may be employed, and each communication protocol module.

[0077] 在本示范实施例中,存储器模块540可储存程序模块,所述程序模块在由处理器模块550执行时,执行产生媒体程序的一或多个过程。 [0077] In the present exemplary embodiment, the memory module 540 may store program module, the program module, when executed by the processor module 550 performs a generating process or more media programs. 另外,存储器模块540可为一或多个存储器装置,用以储存数据、操作系统542以及软件程序。 Further, the memory module 540 may be one or more memory devices for storing data, an operating system 542 and a software program. 在本示范实施例中,存储器单元112的存储器装置可以包括为例如,磁性储存设备、光学储存设备或闪存(FLASH memory)装置的其中之一或其组合。 In the present exemplary embodiment, the memory cells of the memory device 112 may comprise, for example, one of the magnetic storage devices, optical storage devices, or flash memory (FLASH memory) device or a combination thereof. 在本示范实施例中,处理器模块550可以包括多个处理器装置或处理器芯片。 In the present exemplary embodiment, the processor module 550 may include a plurality of processor means or processor chip.

[0078] 在本示范实施例中,多通讯协议的数据传输装置530,用以自动选择电子装置500中多通讯协议的一个数据传输模式。 [0078] In the present exemplary embodiment, the data transfer device 530 a multi-protocol communication, the electronic device 500 to automatically select a data transmission mode in the plurality of communication protocols. 这里所述的多通讯协议包括第一通讯协议模块510与第二通讯协议模块520。 Herein includes a first multi-protocol communication protocol communication protocol module 510 and the second module 520. 数据传输模式包括例如跳频扩频传输模式或多工传输模式。 Data transmission mode comprises, for example, frequency hopping spread spectrum transmission mode or multi-station transmission mode. 所述的多通讯协议的数据传输装置530包括设定配置文件识别单元531、传输模式选择单元532、传输流通量检测单元533、传输流通量比较单元534、传输速率检测单元535与传输速率比较单元536。 Said data transmission apparatus 530 includes a plurality of communication protocol setting configuration file identification unit 531, the transmission mode selection unit 532, a transmission throughput detection unit 533, a transmission throughput comparing unit 534, a transmission rate detecting unit 535 and the transmission rate comparison unit 536.

[0079] 设定配置文件识别单元531,用以判断第一通讯协议模块510目前使用的设定配置文件。 [0079] identification unit 531 set the profile, the profile set for determining whether the first communication protocol module 510 currently used. 所述的设定配置文件可以包括例如:人性化接口装置传输协议(HID)设定配置文件,以及蓝牙立体声音频传输协议(A2DP)设定配置文件。 Said setting configuration file may include, for example: human interface device Transfer Protocol (HID) profile set, stereo audio, and Bluetooth transfer protocol (A2DP) setting configuration file. 传输模式选择单元532,用以根据所判断的设定配置文件,选择该第一通讯协议与第二通讯协议同时使用跳频扩频传输模式或多工传输模式。 Transmission mode selection unit 532, configured in accordance with the determined profile set, selecting the first protocol and the second communication protocol while using frequency hopping spread spectrum transmission mode or multi-station transmission mode. 所述的跳频扩频传输模式可以为例如自适应跳频扩频(AFHSS)传输模式。 The frequency hopping spread spectrum transmission mode may be, for example, adaptive frequency hopping spread spectrum (AFHSS) transmission mode. 所述的多工传输模式可以为例如:时分多工(TDM)模式、码分多工(CDM)模式或自适应时分多工(ATDM)模式。 The multi-station transmission mode can be for example: a time division multiplexing (TDM) mode, a code division multiplexing (CDM) mode or an adaptive time-division multiplexing (ATDM) mode. 当设定配置文件识别单元531确认设定配置文件为一个高传输量设定配置文件(例如,A2DP设定配置文件)时,传输模式选择单元532选择第一通讯协议与第二通讯协议同时使用多工传输模式。 When setting the configuration file identification unit 531 to confirm the setting configuration file setting profiles (e.g., A2DP profile set) to a high transmission capacity, the transmission mode selection unit 532 selects the first communication protocol and a second protocol using both multiplex transmission mode. 相反地,当设定配置文件识别单元531确认设定配置文件为一个低传输量设定配置文件(例如,HID设定配置文件)时,传输模式选择单元532选择第一通讯协议与第二通讯协议同时使用跳频扩频传输模式。 Conversely, when the identification unit 531 set the profile setting confirmation profile is set to a low-profile transfer amount (e.g., HID setting configuration file), the transmission mode selection unit 532 selects the first communication protocol and the second communication The agreement also use frequency hopping spread spectrum transmission mode.

[0080] 在本示范实施例中,传输流通量检测单元533,用以检测第一通讯协议的目前传输流通量。 [0080] In the present exemplary embodiment, the transmission throughput detection unit 533 for detecting the current transmission throughput of the first communication protocol. 传输流通量比较单元534,用以判断目前传输流通量是否大于传输流通量门坎值。 Transmission throughput comparing unit 534 for judging whether the current transmission throughput threshold value larger than the transmission throughput. 当传输流通量比较单元534确认该目前传输流通量未大于传输流通量门坎值时,传输模式选择单元532会选择第一通讯协议与第二通讯协议同时使用跳频扩频传输模式;相反地,当传输流通量比较单元534确认该目前传输流通量大于传输流通量门坎值时,传输模式选择单元532会选择第一通讯协议与第二通讯协议同时使用多工传输模式。 When the transmission throughput comparing unit 534 confirms the current transmission throughput transmission throughput value is not greater than the threshold, the transmission mode selection unit 532 selects a first protocol and a second communication protocol while using frequency hopping spread spectrum transmission mode; conversely, when the transmission throughput comparing unit 534 confirms the transmission throughput is larger than the current transmission throughput threshold, the transmission mode selection unit 532 selects a first protocol and the second protocol multiplexing transmission mode simultaneously. 传输速率检测单元535,用以检测第一通讯协议的目前传输速率值。 A transmission rate detecting unit 535 for detecting the current value of the transmission rate of the first communication protocol. 另外,传输速率比较单元536,用以判断目前传输速率值是否大于传输速率门坎值。 Further, the transmission rate comparison unit 536 for determining the current transmission rate value is larger than the threshold value of the transmission rate. 当传输速率比较单元535确认目前传输速率未大于传输速率门坎值时,传输模式选择单兀532会选择第一通讯协议与第二通讯协议同时使用跳频扩频传输模式;相反地,当传输速率比较单元535确认目前传输速率大于传输速率门坎值时,传输模式选择单元532会选择第一通讯协议与第二通讯协议同时使用多工传输模式。 When the transmission rate comparison unit 535 does not confirm the current transmission rate is the transmission rate is greater than the threshold value, the transmission mode selection unit 532 selects Wu first communication protocol and a second protocol using frequency hopping spread spectrum transmission mode at the same time; the contrary, when the transmission rate the comparison unit 535 to confirm the current transmission rate is greater than the threshold value of the transmission rate, the transmission mode selection unit 532 selects a first protocol and the second protocol multiplexing transmission mode simultaneously. 另外,在本示范实施例中,所述的电子装置500可以为,例如:计算机、笔记本型计算机、移动电话、智能型移动电话、个人数字助理(PDA)、电视、多媒体播放装置以或手持电子装置。 Further, in the present exemplary embodiment, the electronic device 500 may be, for example: a computer, a notebook computer, a mobile phone, a smart mobile phone, a personal digital assistant (PDA), television, multimedia player, or a handheld electronic device device.

[0081] 综上所述,本发明的示范实施例提供多种多通讯协议的数据传输方法及其装置。 [0081] In summary, an exemplary embodiment of the present invention provide a data transmission method and apparatus of a variety of multiple communication protocols. 这些多通讯协议的数据传输方法及其装置根据使用者根据多通讯协议的一目前所使用的设定配置文件、目前传输速率值与传输速率门坎值的比较结果、或目前传输流通量与传输流通量门坎值的比较结果,来选择多通讯协议共存操作时的一个传输模式。 Data transmission method and apparatus in accordance with the multi-protocol communication profile setting a user currently using the multi-communication protocol, the current comparison result of the transmission rate and transmission rate value threshold value, or the current transmission throughput and transmission Circulation comparison of the amount of the threshold value, selecting a transmission mode to a multi-protocol coexistence operations. 通过此自动选择多通讯协议的传输模式,可以提升使用者在操作多通讯协议装置中的实际感受,进而提供较佳的使用者体验。 This multi-protocol automatically selecting a transmission mode, actually improve the user experience can be in operation in a multi-protocol apparatus, and thus provide a better user experience.

[0082] 虽然已以示范实施例揭露如上,然其并非用以限定本发明的可实施方式,任何本领域技术人员,在不脱离所揭露实施例的精神和范围内,当可作些许的更动与润饰,故保护范围当视所附的权利要求范围所界定者为准。 [0082] Although exemplary embodiments disclosed in the above embodiments, they are not intended to limit the embodiment of the present invention may be any one skilled in the art, without departing from the spirit and scope of the disclosed embodiments, it is to be a little more moving and variations, depending on when it is claimed in the scope of the appended claims and their equivalents scope.

Claims (12)

  1. 1.一种多通讯协议的数据传输方法,用以自动选择一电子装置的多通讯协议的一数据传输模式,其中该些通讯协议包括至少一第一通讯协议与一第二通讯协议,该多通讯协议的数据传输方法包括: 识别该第一通讯协议目前使用的一设定配置文件;以及根据该第一通讯协议目前使用的该设定配置文件,选择该第一通讯协议与该第二通讯协议同时使用一跳频扩频传输模式或一多工传输模式, 其中该多通讯协议的数据传输方法还包括: 当该第一通讯协议与该第二通讯协议同时使用该多工传输模式时,将该第一通讯协议所欲传送的数据从该第一通讯协议的一第一媒体存取控制层转交给该第二通讯协议的一第二媒体存取控制层处理后,再通过该第二通讯协议的一物理层传送。 A method of data transmission in a multi-protocol communication, the electronic device to automatically select a communication protocol of a plurality of data transmission modes, wherein the plurality of communication protocols includes at least a first communication protocol and a second protocol, the multi- communication protocol data transmission method comprising: identifying a first set of the configuration file currently used by the communication protocol; and according to the setting of the configuration file currently used first communication protocol, to select the first and the second communication protocol protocol use a frequency hopping spread spectrum transmission mode or a multiplex transmission mode, wherein the data transmission method of the multi-protocol further comprising: when the first protocol and the second communication protocol while the multi-transport mode, after the desired data in the first communication protocol transferred from the first communication protocol is a first MAC layer transferred to the second communication protocol a second MAC layer processing, and then through the second a physical layer transport protocol.
  2. 2.根据权利要求1所述的多通讯协议的数据传输方法,其中当该第一通讯协议的目前使用的该设定配置文件为一高传输量设定配置文件时,选择该第一通讯协议与该第二通讯协议同时使用该多工传输模式;当该第一通讯协议的目前使用的该设定配置文件为一低传输量设定配置文件时,选择该第一通讯协议与该第二通讯协议同时使用该跳频扩频传输模式。 2. Multi-protocol data transmission method according to claim 1, wherein the profile is set when the first communication protocol currently used as a high transmission amount setting configuration file, selecting the first protocol the use of multi-transport mode while the second communication protocol; profile when the setting of the first communication protocol currently used as a low profile set transfer amount, and selecting the first protocol to the second protocol while using the frequency hopping spread spectrum transmission mode.
  3. 3.根据权利要求1所述的多通讯协议的数据传输方法,其中该些通讯协议在一近似频带中共存操作。 3. The data transmission method according to more than one communication protocol according to claim, wherein the plurality of communication protocols in coexistence operation a band approximation.
  4. 4.一种多通讯协议的数据传输方法,用以自动选择一电子装置的多通讯协议的一数据传输模式,其中该些通讯协议包括至少一第一通讯协议与一第二通讯协议,该多通讯协议的数据传输方法包括: 检测该第一通讯协议的一目前传`输流通量;以及根据该第一通讯协议的该目前传输流通量,选择该第一通讯协议与该第二通讯协议同时使用一跳频扩频传输模式或一多工传输模式, 其中当该第一通讯协议的该目前传输流通量未大于该传输流通量门坎值时,选择该第一通讯协议与该第二通讯协议同时使用该跳频扩频传输模式;当该第一通讯协议的该目前传输流通量大于一传输流通量门坎值时,选择该第一通讯协议与该第二通讯协议同时使用该多工传输模式。 4. A data transmission method of multi-protocol communication, the electronic device to automatically select a communication protocol of a plurality of data transmission modes, wherein the plurality of communication protocols includes at least a first communication protocol and a second protocol, the multi- communication protocol data transmission method comprising: detecting a communication protocol of the first transfer current `transmission throughput; and based on the current transmission throughput of the first communication protocol, while selecting the first protocol to the second protocol using a frequency hopping spread spectrum transmission mode or a multiplex transmission mode, wherein when the transfer current flux of the first transmission throughput of the communication protocol is not greater than threshold value, selecting the first protocol to the second protocol the use frequency hopping spread spectrum transmission mode; when the transmission is currently in circulation is greater than the first communication protocol is a transmission throughput threshold value, selecting the first protocol to use the multi-transport mode while the second communication protocol .
  5. 5.根据权利要求4所述的多通讯协议的数据传输方法,还包括: 识别该第一通讯协议目前使用的一设定配置文件;以及根据该第一通讯协议目前使用的该设定配置文件,选择该第一通讯协议与该第二通讯协议同时使用该跳频扩频传输模式或该多工传输模式。 The data transmission method according to plurality of communication protocols according to claim, further comprising: identifying a first set of the configuration file currently used communication protocol; and setting the profile of the first protocol according to the currently used selecting the first communication protocol uses the frequency hopping spread spectrum transmission mode while the second communication protocol or the multiplex transmission mode.
  6. 6.根据权利要求4所述的多通讯协议的数据传输方法,其中该些通讯协议在一近似频带中共存操作。 Multi-protocol data transmission method according to claim 4, wherein the plurality of communication protocols in coexistence operation a band approximation.
  7. 7.—种多通讯协议的数据传输方法,用以自动选择一电子装置的多通讯协议的一数据传输模式,其中该些通讯协议包括至少一第一通讯协议与一第二通讯协议,该多通讯协议的数据传输方法包括: 检测该第一通讯协议的一目前传输速率值;以及根据该第一通讯协议的该目前传输速率值,选择该第一通讯协议与该第二通讯协议同时使用一跳频扩频传输模式或一多工传输模式,其中当该第一通讯协议的该目前传输速率值大于该传输速率门坎值时,选择该第一通讯协议与该第二通讯协议同时使用该多工传输模式;其中当该第一通讯协议的该目前传输速率值未大于一传输速率门坎值时,选择该第一通讯协议与该第二通讯协议同时使用该跳频扩频传输模式。 7.- kinds of data transmission method of multi-protocol, multi-protocol to automatically select an electronic device of a data transmission mode, wherein the plurality of communication protocols includes at least a first communication protocol and a second protocol, the multi- communication protocol data transmission method comprising: detecting the first communication protocol a current transmission rate value; and a transmission rate based on the current value of the first communication protocol, the first communication protocol selected using a second communication protocol while the frequency hopping spread spectrum transmission mode or more than one station transmission mode, wherein when the current transmission rate of the first communication protocol transmission rate value is larger than the threshold value, selecting the first communication protocol used with the second communication protocol of the plurality workers transmission mode; wherein the first communication protocol when the current transmission rate value does not exceed a transmission rate threshold value, selecting the first protocol and the second communication protocol using the frequency hopping spread spectrum transmission mode simultaneously.
  8. 8.根据权利要求7所述的多通讯协议的数据传输方法,还包括: 识别该第一通讯协议目前使用的一设定配置文件;以及根据该第一通讯协议目前使用的该设定配置文件,选择该第一通讯协议与该第二通讯协议同时使用该跳频扩频传输模式或该多工传输模式。 Multi-protocol data transmission method according to claim 7, further comprising: setting a configuration file identifying the first communication protocol currently used; and the profile is set according to the first communication protocol currently used selecting the first communication protocol uses the frequency hopping spread spectrum transmission mode while the second communication protocol or the multiplex transmission mode.
  9. 9.一种多通讯协议的数据传输装置,用以自动选择一电子装置的多通讯协议的一数据传输模式,其中该些通讯协议包括至少一第一通讯协议与一第二通讯协议,该多通讯协议的数据传输装置包括: 一设定配置文件识别单元,用以识别该第一通讯协议目前使用的一设定配置文件; 一传输模式选择单元,用以根据该第一通讯协议目前使用的该设定配置文件,选择该第一通讯协议与该第二通讯协议同时使用一跳频扩频传输模式或一多工传输模式, 其中该多通讯协议的数据传输装置还包括: 一传输流通量检测单元,用以检测该第一通讯协议的一目前传输流通量;以及一传输流通量比较单元,用以判断该目前传输流通量是否大于一传输流通量门坎值,其中当该传输流通量比较单元确认该目前传输流通量未大于该传输流通量门坎值时,该传输模式选择单元选择 A data transmission device of a multi-protocol communication, the electronic device to automatically select a communication protocol of a plurality of data transmission modes, wherein the plurality of communication protocols includes at least a first communication protocol and a second protocol, the multi- communication protocol data transmission apparatus comprising: a setting configuration file identification means for identifying a first set of the configuration file currently used communication protocol; a transmission mode selecting means for using the current communication protocol of the first setting the profile, select the first communication protocol uses a frequency-hopping spread-spectrum transmission mode or a multi-transport mode while the second communication protocol, wherein the data transmission means of the plurality of communication protocols further comprises: a transmission throughput detecting means for detecting a current flux of the first transmission protocol; and a transmission throughput comparing unit, for comparing the current transmission throughput is determined whether the transmission is greater than a throughput threshold, wherein when the transmission throughput when the current transmission unit confirms that the flux is not larger than the transmission throughput threshold, the transmission mode selection unit selects 第一通讯协议与该第二通讯协议同时使用该跳频扩频传输模式;当该传输流通量比较单元确认该目前传输流通量大于该传输流通量门坎值时,该传输模式选择单元选择该第一通讯协议与该第二通讯协议同时使用该多工传输模式。 The first communication protocol and the second communication protocol while the frequency hopping spread spectrum transmission mode; when the transmission throughput comparing unit confirms that the current transmission is greater than the flux transmission throughput threshold value, the transmission mode selection unit selects the second a second communication protocol to the communication protocol of the multi-transport mode simultaneously.
  10. 10.根据权利要求9所述的多通讯协议的数据传输装置,其中当该设定配置文件识别单元识别该设定配置文件为一高传输量设定配置文件时,该传输模式选择单元选择该第一通讯协议与该第二通讯协议同时使用该多工传输模式;当该设定配置文件识别单元识别该设定配置文件为一低传输量设定配置文件时,该传输模式选择单元选择该第一通讯协议与该第二通讯协议同时使用该跳频扩频传输模式。 When the data transfer apparatus 10. The multi-protocol communication according to claim 9, wherein when the recognition unit recognizes the set profile of the profile set is set to a high profile transfer amount, the transmission mode selection unit selects the the first communication protocol and the second communication protocol while the multi-transport mode; setting when the recognition unit recognizes the profile is set to a low profile configuration setting file transfer amount, the transmission mode selection unit selects the the first communication protocol and the second communication protocol using the frequency hopping spread spectrum transmission mode simultaneously.
  11. 11.一种多通讯协议的数据传输装置,用以自动选择一电子装置的多通讯协议的一数据传输模式,其中该些通讯协议包括至少一第一通讯协议与一第二通讯协议,该多通讯协议的数据传输装置包括: 一传输流通量检测单元,用以检测该第一通讯协议的一目前传输流通量; 一传输流通量比较单元,用以判断该目前传输流通量是否大于一传输流通量门坎值;以及一传输模式选择单元,当该传输流通量比较单元确认该目前传输流通量未大于该传输流通量门坎值时,该传输模式选择单元选择该第一通讯协议与该第二通讯协议同时使用一跳频扩频传输模式,当该传输流通量比较单元确认该目前传输流通量大于该传输流通量门坎值时,该传输模式选择单元选择该第一通讯协议与该第二通讯协议同时使用一多工传输模式, 其中该多通讯协议的数据传输装置还包括: 11. A data transmission device of a multi-protocol, to automatically select a communication protocol of the electronic device of a plurality of data transmission modes, wherein the plurality of communication protocols includes at least a first communication protocol and a second protocol, the multi- communication protocol data transmission apparatus comprising: a transmission flux detecting unit for detecting a current transmission throughput of the first communication protocol; a transmission throughput comparing unit for determining whether the transmission is currently in circulation is greater than a transmission flow the amount of the threshold value; and a transmission mode selection unit, when the transmission throughput comparing unit confirms the current transmission does not exceed the flux transmission throughput threshold value, the transmission mode selection unit selects the first communication protocol and the second communication protocol use a frequency hopping spread spectrum transmission mode, when the transmission throughput comparing unit confirms that current transmission is greater than the flux transmission throughput threshold value, the transmission mode selection unit selects the first communication protocol and the second protocol while using more than one station transmission mode, wherein the multi-protocol data transmission apparatus further comprises: 设定配置文件识别单元,用以识别该第一通讯协议目前使用的一设定配置文件,其中该传输模式选择单元还用以根据该第一通讯协议目前使用的该设定配置文件,选择该第一通讯协议与该第二通讯协议同时使用该跳频扩频传输模式或该多工传输模式。 Setting configuration file identification means for identifying the first communication protocol currently used by a set profile, wherein the transmission mode selecting unit is further configured according to the first communication protocol currently used by the profile setting, select the the first communication protocol and the second communication protocol using the frequency hopping spread spectrum transmission mode or the multi-transport mode simultaneously.
  12. 12.—种多通讯协议的数据传输装置,用以自动选择一电子装置的多通讯协议的一数据传输模式,其中该些通讯协议包括至少一第一通讯协议与一第二通讯协议,该多通讯协议的数据传输装置包括: 一传输速率检测单元,用以检测该第一通讯协议的一目前传输速率值;一传输速率比较单元,用以判断该目前传输速率值是否大于一传输速率门坎值;以及一传输模式选择单兀,当该传输速率比较单兀确认该目前传输速率值未大于该传输速率门坎值时,该传输模式选择单元选择该第一通讯协议与该第二通讯协议同时使用一跳频扩频传输模式,当该传输速率比较单元确认该目前传输速率值大于该传输速率门坎值时,该传输模式选择单兀选择该第一通讯协议与该第二通讯协议同时使用一多工传输模式,其中该多通讯协议的数据传输装置还包括: 一设定配置文件识 12.- Multi-Species data transmission device communication protocol, the communication protocol to automatically select a plurality of the electronic device a data transmission mode, wherein the plurality of communication protocols includes at least a first communication protocol and a second protocol, the multi- communication protocol data transmission apparatus comprising: a transmission rate detecting unit for detecting a current value of the transmission rate of the first communication protocol; a transmission rate comparison unit for determining whether the current transmission rate is the transmission rate value is larger than a threshold value ; and select a transmission mode single Wu, when the transmission rate of the current comparing unit Wu acknowledgment transmission rate value is not greater than the threshold value of the transmission rate, the transmission mode selection unit selects the first communication protocol used with the second communication protocol a frequency-hopping spread-spectrum transmission mode, when the transmission rate comparison unit confirms the current transmission rate value is greater than the threshold value of the transmission rate, the transmission mode selection unit selecting the first Wu using more than one protocol and the second communication protocol while simplex transmission mode, wherein the data transmission means of the plurality of communication protocols further comprises: identifying a set profile 别单元,用以识别该第一通讯协议目前使用的一设定配置文件,其中该传输模式选择单元还用以根据该第一通讯协议目前使用的该设定配置文件,选择该第一通讯协议与该第二通讯协议同时.使用该跳频扩频传输模式或该多工传输模式。 Other means for identifying a first set of the configuration file currently used communication protocol, wherein the transmission mode selecting unit is further configured to set the profile according to the first communication protocol currently used, select the first communication protocol and the second communication protocol while using the frequency hopping spread-spectrum transmission mode or the multi-transport mode.
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