CN101299619A - 可随载控压的无线传输装置 - Google Patents
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Abstract
一种可随载控压的无线传输装置,该装置具有随载增加或减少无线式传输装置相关电路驱动电压的功能,并可依通联距离及通联环境所需的通联信号强度,选择无线传输装置驱动相关电路的驱动电压,以增强无线传输信号强度,或降低信号强度。该装置具有:无线传输信号收发电路装置、操控及放大电路、随机周边接口电路、电源装置。本发明可以随载来控制电压,从而可以根据通联距离及通联环境所需的通联信号强度,来选择无线传输装置驱动相关电路的驱动电压,以增强无线传输信号强度,或降低信号强度。
Description
技术领域
本发明有关于一种可随载控压的无线传输装置,其应用对象为针对传统无线式(Wireless)的数据处理与通信用装置所具有的无线传输功能装置,例如应用于无线鼠标、无线键盘、无线扫瞄器、无线麦克风、无线喇叭、无线遥控器、无线上网装置、无线电话、无线检测装置或无线警示装置等,由射频电磁波或红外线或超音波作调幅、调频、或数字的无线式(Wireless)作无线传输,以增进方便性,如近年的蓝牙产品(Blue Tooth)都为此项科技发展的指针。
背景技术
传统的无线传输方式,由射频电磁波或红外线或超音波作调幅、调频、或数字的无线式(Wireless)无线传输,以增进方便性,如近年的蓝牙产品(Blue Tooth)都为此项科技发展的指针,但由于无线式通联须设置携带式电源,其储存电能有限,目前此类产品的无线传输为固定于单一电压,而随信号大小而变化,应用较受限。
发明内容
本发明的主要目的,在于提供一种可随载控压的无线传输装置,此项设计具有随载增加或减少无线式传输装置相关电路驱动电压的功能,并可依通联距离及通联环境所需的通联信号强度,选择无线传输装置驱动相关电路的驱动电压,以增强无线传输信号强度,或降低信号强度。
上述可随载控压的无线传输装置的主要构成如下:无线传输信号收发电路装置101,其由集成电路或固态电子组件或机电组件所构成,并依需要选择射频电磁波式、光学式或超音波等作调幅或调频或数字的无线传输构成相关发射电路装置、或接收电路装置、或发射与接收电路装置,或同时设置两种或两种以上的无线传输方式者;操控及放大电路102,其将无线传输信号收发电路装置101接收的电能或光能信号,放大输往随机周边接口电路103,或将随机周边接口电路103的电能信号,放大输往收发电路装置101作发射,或同时具有上述两者功能;随机周边接口电路103,其依应用对象周边装置所属的无线式信息传输或无线通信的功能,选定的电子电路组件所构成的应用对象专属电路,供作为无线传输信号收发电路装置101或操控及放大电路102,与应用对象周边装置的输入装置104,或应用对象周边装置的输出装置105的中间接口电路功能,此项随机周边接口电路103可依周边装置与系统匹配的需要而选择设置或不设置;所述具有无线传输功能的装置及所属无线传输信号收发电路装置101、操控及放大电路102、随机周边接口电路103及输入装置输出装置,以可工作于较低的常态电压及升压机制激活后的最高电压为工作电压范围;电源装置110,其由一个或一个以上包括由抛弃式一次电池、或可充放电电池、或蓄电电容、超级电容等直流蓄电装置所构成,其特征为,可依需要设置由机电组件或固态电子组件所构成的输出电压调控装置111,以由人工操作方式或接受随机周边接口电路103的操控,以激活升压机制使其输出电压作线性或阶级式的提升电压对所述具有无线传输功能的装置及所属无线传输信号收发电路装置101、操控及放大电路102、随机周边接口电路103及输入装置输出装置供电。
本发明的可随载控压的无线传输装置,可以随载来控制电压,从而可以根据通联距离及通联环境所需的通联信号强度,来选择无线传输装置驱动相关电路的驱动电压,以增强无线传输信号强度,或降低信号强度。
附图说明
图1所示为本发明可随载控压的无线传输装置的电路方块示意图。
图2为本发明的开环式运作流程图。
图3为本发明的死循环式运作流程图。
图4为本发明的同步式运作流程图。
图5所示为本发明电源电压呈较低的待机电压及电压较高的无线传输状态示意图。
图6所示为本发明的由人工操作以依无线传输距离选择不同电源电压供应状态的示意图。
具体实施方式
以下配合附图详细说明本发明的特征及优点。
图1所示,本发明“可随载控压的无线传输装置”的电路方块示意图,其主要构成如下:
无线传输信号收发电路装置101:由集成电路或固态电子组件或机电组件所构成,并依需要选择射频电磁波式、光学式(如红外线)或超音波等作调幅或调频或数字的无线传输构成相关发射电路装置、或接收电路装置、或发射与接收电路装置,或同时设置两种或两种以上的无线传输方式者;
操控及放大电路102:将无线传输信号收发电路装置101接收的电能或光能信号,放大输往随机周边接口电路103,或将随机周边接口电路103的电能信号,放大输往收发电路装置101作发射,或同时具有上述两者功能;
随机周边接口电路103:依应用对象周边装置所属的无线式信息传输或无线通信的功能,选定的电子电路组件所构成的应用对象专属电路,供作为无线传输信号收发电路装置101或操控及放大电路102,与应用对象周边装置的输入装置104,或应用对象周边装置的输出装置105的中间接口电路功能,此项随机周边接口电路103可依周边装置与系统匹配的需要而选择设置或不设置;
所述具有无线传输功能的装置及所属无线传输信号收发电路装置101、操控及放大电路102、随机周边接口电路103及输入装置输出装置,为可工作于较低的常态电压及升压机制激活后的最高电压为工作电压范围。
电源装置110:由一个或一个以上包括由抛弃式一次电池、或可充放电电池、或蓄电电容、超级电容等直流蓄电装置所构成,其特征为可依需要设置由机电组件或固态电子组件所构成的输出电压调控装置111,以由人工操作方式或接受随机周边接口电路103的操控,以激活升压机制使其输出电压作线性或阶级式的提升电压对所述具有无线传输功能的装置及所属无线传输信号收发电路装置101、操控及放大电路102、随机周边接口电路103及输入装置输出装置供电;
此项电路的操控模式含:
(1)开环式:由无线传输信号激活升压机制,增强收发性能及传输距离,并根据设定自动开关时间到达且无线传输信号中止时,自动恢复为常态电压;若到达所设定自动关机时间,而无线传输信号仍为持续,则自动开关机时间重新置于开始计时,并再度激活升压机制直到无线传输信号中止,而于设定时间开始计时至到达设定时间恢复为常态电压;图2为本发明的开环式运作流程图;
(2)死循环式:由无线传输信号激活升压机制,增强收发性能及传输距离,若到达设定自动开关时间而无线传输信号仍为持续,则维持升压机制,自动开关机时间置于开始状态而不计时,直到无线传输信号中止,设定时间开始计时至到达设定时间恢复为常态电压;图3为本发明的死循环式运作流程图;
(3)同步式:于无线传输信号来临时,同步激活升压机制,并在无线传输信号中止时同步恢复正常电压;图4为本发明的同步式运作流程图;
(4)根据人工操作调控发射驱动电压,或调控接收电压,或同时调控发射及接收电路:此方式为随机由人工操作调控其驱动电压或发射或接收放大功率比值。
此项可随载控压的无线传输装置,其运作方式含:
1、于无线传输时,接受随机周边接口电路103的操控,以调控其电源装置110的输出电压为待机期间TS呈较低电压VL供电的状态,发射或接收状态期间TW呈较高电压VH供电的状态,图5所示为本发明电源电压呈较低的待机电压及电压较高的无线传输状态示意图;或
2、可根据人工操控以在较近通联距离的状态SD时,选择较低驱动电压VL作无线传输功能的运作,而在较远无线传输距离的状态LD时,选择较高驱动电压VH作无线传输功能的运作,图6所示为本发明根据人工操作以依无线传输距离选择不同电源电压供应状态示意图;或
3、可根据人工操作提升驱动电压作为紧急增强(Booster)的无线传输的功能;或
4、可根据人工操作依无线传输距离及无线传输环境而调控选定其电源电压。
上述实施例所揭,仅是本发明主要技术之例举说明,其并非用以限定本案技术范围,举凡涉及等效应用或基于前项技术手段所为简易变更或置换,均应视为属于本案技术范围。
综合上述,此项可随载控压的无线传输装置,可供使用于无线传输功能的无线鼠标、无线键盘、无线扫瞄器、无线麦克风、无线喇叭、无线遥控器、无线上网装置、无线电话、无线检测装置或无线警示装置等应用对象,以在无线传输时,根据接受随机周边接口电路103的操控,以提升对所述具有无线传输功能的应用对象装置及所属无线传输信号收发电路装置101、操控及放大电路102、随机周边接口电路103及输入装置输出装置的工作电压,进而增强通信性能,如增加通信距离及噪声识别;此项发明构思新颖、功能确切。
虽然本发明已用较佳实施例揭露如上,然其并非用以限定本发明,任何熟习此技艺者,在不脱离本发明的精神和范围内,当可作各种的更动与修改,因此本发明的保护范围当以权利要求所界定者为准。
Claims (9)
1、一种可随载控压的无线传输装置,其具有随载增加或减少无线式传输装置相关电路驱动电压的功能,并可依通联距离及通联环境所需的通联信号强度,选择无线传输装置驱动相关电路的驱动电压,以增强无线传输信号强度,或降低信号强度;所述装置的主要构成如下:
无线传输信号收发电路装置101,其由集成电路或固态电子组件或机电组件所构成,并依需要选择射频电磁波式、光学式或超音波等作调幅或调频或数字的无线传输构成相关发射电路装置、或接收电路装置、或发射与接收电路装置,或同时设置两种或两种以上的无线传输方式者;
操控及放大电路102,其将无线传输信号收发电路装置101接收的电能或光能信号,放大输往随机周边接口电路103,或将随机周边接口电路103的电能信号,放大输往收发电路装置101作发射,或同时具有上述两者功能;
随机周边接口电路103,其依应用对象周边装置所属的无线式信息传输或无线通信的功能,选定的电子电路组件所构成的应用对象专属电路,供作为无线传输信号收发电路装置101或操控及放大电路102,与应用对象周边装置的输入装置104,或应用对象周边装置的输出装置105的中间接口电路功能,此项随机周边接口电路103可依周边装置与系统匹配的需要而选择设置或不设置;
所述具有无线传输功能的装置及所属无线传输信号收发电路装置101、操控及放大电路102、随机周边接口电路103及输入装置输出装置,以可工作于较低的常态电压及升压机制激活后的最高电压为工作电压范围;
电源装置110,其由一个或一个以上包括由抛弃式一次电池、或可充放电电池、或蓄电电容、超级电容等直流蓄电装置所构成,其中,可依需要设置由机电组件或固态电子组件所构成的输出电压调控装置111,以由人工操作方式或接受随机周边接口电路103的操控,以激活升压机制使其输出电压作线性或阶级式的提升电压对所述具有无线传输功能的装置及所属无线传输信号收发电路装置101、操控及放大电路102、随机周边接口电路103及输入装置输出装置供电。
2、如权利要求1所述的可随载控压的无线传输装置,其特征在于,所述装置的电路的操控模式含开环式:根据无线传输信号激活升压机制,增强收发性能及传输距离,并通过设定自动开关时间到达且无线传输信号中止时,自动恢复为常态电压;若到达所设定自动关机时间,而无线传输信号仍为持续,则自动开关机时间重新置于开始计时,并再度激活升压机制直到无线传输信号中止,而于设定时间开始计时至到达设定时间恢复为常态电压。
3、如权利要求1所述的可随载控压的无线传输装置,其特征在于,所述装置的电路的操控模式含死循环式:根据无线传输信号激活升压机制,增强收发性能及传输距离,若到达设定自动开关时间而无线传输信号仍为持续,则维持升压机制,自动开关机时间置于开始状态而不计时,直到无线传输信号中止,设定时间开始计时至到达设定时间恢复为常态电压。
4、如权利要求1所述的可随载控压的无线传输装置,其特征在于,所述装置的电路的操控模式含同步式:于无线传输信号来临时,同步激活升压机制,并在无线传输信号中止时同步恢复正常电压。
5、如权利要求1所述的可随载控压的无线传输装置,其特征在于,所述装置的电路的操控模式含人工操作调控发射驱动电压,或调控接收电压,或同时调控发射及接收电路的电压:此方式为随机由人工操作调控其驱动电压或发射或接收放大功率比值。
6、如权利要求1所述的可随载控压的无线传输装置,其特征在于,所述装置的运作方式含:于无线传输时,接受随机周边接口电路103的操控,以调控其电源装置110的输出电压为待机期间TS呈较低电压VL供电的状态,发射或接收状态期间TW呈较高电压VH供电的状态。
7、如权利要求1所述的可随载控压的无线传输装置,其特征在于,所述装置的运作方式含:可根据人工操控以在较近通联距离的状态SD时,选择较低驱动电压VL作无线传输功能的运作,而在较远无线传输距离的状态LD时,选择较高驱动电压VH作无线传输功能的运作。
8、如权利要求1所述的可随载控压的无线传输装置,其特征在于,所述装置的运作方式含:可根据人工操作提升驱动电压作为紧急增强的无线传输的功能。
9、如权利要求1所述的可随载控压的无线传输装置,其特征在于,所述装置的运作方式含:可根据人工操作依无线传输距离及无线传输环境而调控选定其电源电压。
Priority Applications (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US11/404,863 US7577409B2 (en) | 2006-04-17 | 2006-04-17 | Load-based voltage control wireless transmission system |
EP07251795A EP1988640A1 (en) | 2006-04-17 | 2007-04-30 | Load-based voltage control wireless transmissian system |
CN2007101077886A CN101299619B (zh) | 2006-04-17 | 2007-04-30 | 可随载控压的无线传输装置 |
TW096116010A TWI544752B (zh) | 2006-04-17 | 2007-05-03 | 可隨載控壓之無線傳輸裝置 |
JP2007177451A JP2009017292A (ja) | 2006-04-17 | 2007-07-05 | 無線装置 |
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
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US11/404,863 US7577409B2 (en) | 2006-04-17 | 2006-04-17 | Load-based voltage control wireless transmission system |
EP07251795A EP1988640A1 (en) | 2006-04-17 | 2007-04-30 | Load-based voltage control wireless transmissian system |
CN2007101077886A CN101299619B (zh) | 2006-04-17 | 2007-04-30 | 可随载控压的无线传输装置 |
TW096116010A TWI544752B (zh) | 2006-04-17 | 2007-05-03 | 可隨載控壓之無線傳輸裝置 |
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CN101299619A true CN101299619A (zh) | 2008-11-05 |
CN101299619B CN101299619B (zh) | 2012-11-28 |
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US (1) | US7577409B2 (zh) |
EP (1) | EP1988640A1 (zh) |
JP (1) | JP2009017292A (zh) |
CN (1) | CN101299619B (zh) |
TW (1) | TWI544752B (zh) |
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CN104813593A (zh) * | 2012-11-06 | 2015-07-29 | 英特尔公司 | 设备中的近场通信(nfc)性能/覆盖的动态放大 |
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US20170328197A1 (en) * | 2016-05-13 | 2017-11-16 | Ningbo Wanyou Deepwater Energy Science & Technolog Co.,Ltd. | Data Logger, Manufacturing Method Thereof and Real-time Measurement System Thereof |
US20170350241A1 (en) * | 2016-05-13 | 2017-12-07 | Ningbo Wanyou Deepwater Energy Science & Technology Co.,Ltd. | Data Logger and Charger Thereof |
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- 2007-04-30 CN CN2007101077886A patent/CN101299619B/zh not_active Expired - Fee Related
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- 2007-07-05 JP JP2007177451A patent/JP2009017292A/ja active Pending
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Also Published As
Publication number | Publication date |
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EP1988640A1 (en) | 2008-11-05 |
US20070242644A1 (en) | 2007-10-18 |
TW200845597A (en) | 2008-11-16 |
TWI544752B (zh) | 2016-08-01 |
US7577409B2 (en) | 2009-08-18 |
JP2009017292A (ja) | 2009-01-22 |
CN101299619B (zh) | 2012-11-28 |
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