TW201635090A - Electronic devices with biological sensing devices - Google Patents
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Abstract
Description
本發明為一種電子裝置,特別是一種具有生物感測裝置的電子裝置。 The present invention is an electronic device, and more particularly an electronic device having a biosensing device.
目前市面上周邊裝置,如滑鼠、耳機、鍵盤等,部分是只能依靠所連接之電子裝置才能運作,因此只要移除這些周邊裝置,該周邊裝置就不會消耗電子裝置的電力。另外有些周邊裝置本身有獨立的電源,不會消耗電子裝置的電力。但這些周邊裝置如果沒有被關閉,仍會消耗自身或電子裝置的電力。如果透過類似實體開關的方式關閉電子裝置,對使用者並不方便。 At present, peripheral devices such as a mouse, a headphone, a keyboard, etc., can only operate by relying on the connected electronic devices, so that the peripheral devices do not consume the power of the electronic device as long as the peripheral devices are removed. In addition, some peripheral devices have independent power sources and do not consume power from electronic devices. However, if these peripheral devices are not turned off, they still consume power from themselves or electronic devices. If the electronic device is turned off by a physical switch, it is not convenient for the user.
本發明的一實施例提供一種具有生物感測裝置的電子裝置,包括一第一感測墊、一第二感測墊、一感應電路、一電源、一開關裝置以及一控制器。該感應電路耦接該第一感測墊與第二感測墊,當該第一感測墊與第二感測墊被短路時,該感應電路輸出一第一信號。該開關裝置,耦接該電源,接收該第一信號。該控制器,耦接該開關裝置,其中當開關裝置接收到該第一信號而被導通時,該控制器被該電源所供電。 An embodiment of the present invention provides an electronic device having a bio-sensing device, including a first sensing pad, a second sensing pad, a sensing circuit, a power source, a switching device, and a controller. The sensing circuit is coupled to the first sensing pad and the second sensing pad. When the first sensing pad and the second sensing pad are short-circuited, the sensing circuit outputs a first signal. The switching device is coupled to the power source and receives the first signal. The controller is coupled to the switching device, wherein when the switching device receives the first signal and is turned on, the controller is powered by the power source.
本發明的另一實施例提供一種具有生物感測裝置 的電子裝置,包括一第一感測墊、一第二感測墊、一感應電路一第一電源、一第二電源、一開關裝置以及一控制器。該感應電路耦接該第一電源、該第一感測墊與第二感測墊,當該第一感測墊與第二感測墊被短路時,該感應電路被該第一電源供電且輸出一第一信號。該開關裝置,耦接該第二電源,接收該第一信號。該控制器,耦接該開關裝置,其中當開關裝置接收到該第一信號而被導通時,該控制器被該第二電源所供電。 Another embodiment of the present invention provides a biosensing device The electronic device includes a first sensing pad, a second sensing pad, a sensing circuit, a first power source, a second power source, a switching device, and a controller. The sensing circuit is coupled to the first power source, the first sensing pad and the second sensing pad, and when the first sensing pad and the second sensing pad are short-circuited, the sensing circuit is powered by the first power source and A first signal is output. The switching device is coupled to the second power source to receive the first signal. The controller is coupled to the switching device, wherein when the switching device receives the first signal and is turned on, the controller is powered by the second power source.
11、12、21、22、31、32、41、42‧‧‧感測墊 11, 12, 21, 22, 31, 32, 41, 42‧‧‧ Sense pads
13、23、33、43‧‧‧感應電路 13, 23, 33, 43‧‧‧ Induction circuits
14、24、34、44‧‧‧開關裝置 14, 24, 34, 44‧‧‧ switchgear
15、45‧‧‧電源 15, 45‧‧‧ power supply
16、26、36、46‧‧‧控制器 16, 26, 36, 46‧‧ ‧ controller
27、37‧‧‧第一電源 27, 37‧‧‧ first power supply
25、35‧‧‧第二電源 25, 35‧‧‧second power supply
47‧‧‧偵測電路 47‧‧‧Detection circuit
第1圖為根據本發明之一具有生物感測裝置的電子裝置的一實施例的示意圖。 1 is a schematic diagram of an embodiment of an electronic device having a biosensing device in accordance with the present invention.
第2圖為根據本發明之一具有生物感測裝置的電子裝置的另一實施例的示意圖。 2 is a schematic view of another embodiment of an electronic device having a biosensing device in accordance with the present invention.
第3圖為根據本發明之一具有生物感測裝置的電子裝置的另一實施例的示意圖。 Figure 3 is a schematic illustration of another embodiment of an electronic device having a biosensing device in accordance with the present invention.
第4圖為根據本發明之一具有生物感測裝置的電子裝置的另一實施例的示意圖。 Figure 4 is a schematic illustration of another embodiment of an electronic device having a biosensing device in accordance with the present invention.
第5圖為根據本發明之一具有生物感測裝置的電子裝置的運作方法的一實施例的流程圖。 Figure 5 is a flow chart of an embodiment of a method of operating an electronic device having a biosensing device in accordance with the present invention.
第6圖為根據本發明之一具有生物感測裝置的電子裝置的運作方法的另一實施例的流程圖。 Figure 6 is a flow chart showing another embodiment of a method of operating an electronic device having a biosensing device in accordance with the present invention.
第7圖為根據本發明之一具有生物感測裝置的滑鼠示意圖。 Figure 7 is a schematic view of a mouse having a biosensing device in accordance with the present invention.
第8圖為根據本發明之一具有生物感測裝置的無線耳機示意圖。 Figure 8 is a schematic illustration of a wireless headset having a biosensing device in accordance with the present invention.
第1圖為根據本發明之一具有生物感測裝置的電子裝置的一實施例的示意圖。電子裝置包括感測墊11與12、感應電路13、開關裝置14、電源15以及控制器16。感測墊11與12設置在該電子裝置的一殼體上。感應電路13耦接感測墊11與12,且當感測墊11與12因為使用者觸碰而短路時,輸出一第一信號S1。開關裝置14耦接電源15,並接收第一信號S1。控制器16耦接開關裝置14,當開關裝置14接收到第一信號S1而被導通時,控制器16被電源15所供電。 1 is a schematic diagram of an embodiment of an electronic device having a biosensing device in accordance with the present invention. The electronic device includes sensing pads 11 and 12, a sensing circuit 13, a switching device 14, a power source 15, and a controller 16. The sensing pads 11 and 12 are disposed on a housing of the electronic device. The sensing circuit 13 is coupled to the sensing pads 11 and 12, and outputs a first signal S1 when the sensing pads 11 and 12 are short-circuited by a user's touch. The switching device 14 is coupled to the power source 15 and receives the first signal S1. The controller 16 is coupled to the switching device 14. When the switching device 14 is turned on when receiving the first signal S1, the controller 16 is powered by the power source 15.
在另一實施方式中,當感測墊11與12因為使用者觸碰而短路時,第一信號S1的邏輯準位從邏輯低準位被上拉到邏輯高準位。 In another embodiment, when the sensing pads 11 and 12 are short-circuited by a user touch, the logic level of the first signal S1 is pulled up from a logic low level to a logic high level.
當開關裝置14因為第一信號S1而被導通時,控制器16開始接收電源15傳送來的電力而運作。控制器16此時除了維持電子裝置的運作外,也監控第一信號S1的邏輯狀態。當控制器16偵測到第一信號S1的邏輯準位改變且符合一預定狀況(包括但不限於出現該第一信號的邏輯准位元已經改變了一預定時間,或出現該具有生物感測裝置的電子裝置處於一閒置狀態)時,控制器16發出一第二控制信號S2給開關裝置14,用以關閉開關裝置14。 When the switching device 14 is turned on because of the first signal S1, the controller 16 starts to receive power from the power source 15 to operate. The controller 16 now monitors the logic state of the first signal S1 in addition to maintaining the operation of the electronic device. When the controller 16 detects that the logic level of the first signal S1 changes and meets a predetermined condition (including but not limited to, the logic level of the first signal has changed for a predetermined time, or the bio-sensing occurs When the electronic device of the device is in an idle state, the controller 16 sends a second control signal S2 to the switching device 14 for turning off the switching device 14.
具體地,當控制器16檢測到第一信號S1的邏輯准位元從邏輯高準位被下拉到邏輯低準位時,控制器16內的一計時器開始計時。當控制器16偵測到第一信號S1的邏輯準位維持 在邏輯低準位的時間已經超出一預定時間時,控制器16發出一第二控制信號S2給開關裝置14,用以關閉開關裝置14。因為開關裝置14被關閉了,所以電源15也停止輸出電力給控制器16,控制器16也因此停止運作。 Specifically, when the controller 16 detects that the logic level of the first signal S1 is pulled from the logic high level to the logic low level, a timer within the controller 16 begins timing. When the controller 16 detects that the logic level of the first signal S1 is maintained When the time of the logic low level has exceeded a predetermined time, the controller 16 issues a second control signal S2 to the switching device 14 for turning off the switching device 14. Since the switching device 14 is turned off, the power source 15 also stops outputting power to the controller 16, and the controller 16 therefore stops operating.
要注意的是,開關裝置14在導通前是受控於第一信號S1,而導通後就不會因為第一信號S1的邏輯準位變化而被關閉。開關裝置14在導通後只會因為第二控制信號S2而被關閉。因此,開關裝置14在關閉狀態時是受控於感應電路13,而開關裝置14在導通狀態時是受控於控制器16。 It should be noted that the switching device 14 is controlled by the first signal S1 before being turned on, and is not turned off after being turned on because the logic level of the first signal S1 changes. The switching device 14 is only turned off by the second control signal S2 after being turned on. Therefore, the switching device 14 is controlled by the sensing circuit 13 in the off state, and the switching device 14 is controlled by the controller 16 in the on state.
在本實施例中,感應電路13的電力是由電源15所提供。但如果感測墊11與12沒有因為使用者觸碰而短路時,感測墊11與12、感應電路13與電源15並不會形成一電力迴路,因此感應電路13也不會消耗電力。因此,透過本實施例的電路設計,只要感測墊11與12沒有因為使用者觸碰而短路時,整體電路的功率消耗非常低,而達到省電的目的。 In the present embodiment, the power of the sensing circuit 13 is provided by the power source 15. However, if the sensing pads 11 and 12 are not short-circuited by the user's touch, the sensing pads 11 and 12, the sensing circuit 13 and the power source 15 do not form a power loop, so the sensing circuit 13 does not consume power. Therefore, through the circuit design of the embodiment, as long as the sensing pads 11 and 12 are not short-circuited by the user's touch, the power consumption of the overall circuit is very low, and the power saving is achieved.
第2圖為根據本發明之一具有生物感測裝置的電子裝置的另一實施例的示意圖。電子裝置包括感測墊21與22、感應電路23、第一電源27、開關裝置24、第二電源25以及控制器26。感測墊21與22設置在該電子裝置的一殼體上。感應電路23耦接感測墊21與22,且當感測墊21與22因為使用者觸碰而短路時,輸出一第一信號S2。在另一實施方式中,當感測墊21與22因為使用者觸碰而短路時,第一信號S2的邏輯準位從邏輯低準位被上拉到邏輯高準位。 2 is a schematic view of another embodiment of an electronic device having a biosensing device in accordance with the present invention. The electronic device includes the sensing pads 21 and 22, the sensing circuit 23, the first power source 27, the switching device 24, the second power source 25, and the controller 26. The sensing pads 21 and 22 are disposed on a housing of the electronic device. The sensing circuit 23 is coupled to the sensing pads 21 and 22, and outputs a first signal S2 when the sensing pads 21 and 22 are short-circuited by a user touch. In another embodiment, when the sensing pads 21 and 22 are shorted due to a user touch, the logic level of the first signal S2 is pulled up from a logic low level to a logic high level.
當開關裝置24因為第一信號S2而被導通時,控制 器26開始接收第二電源25傳送來的電力而運作。控制器26此時除了維持電子裝置的運作外,也監控第一信號S2的邏輯狀態。當控制器26偵測到第一信號S2的邏輯準位從邏輯高準位被下拉到邏輯低準位時,控制器26內的一計時器開始計時。當控制器26偵測到第一信號S2的邏輯準位維持在邏輯低準位的時間已經超出一預定時間時,控制器26發出一第二控制信號S2給開關裝置24,用以關閉開關裝置24。因為開關裝置24被關閉了,所以第二電源25也停止輸出電力給控制器26,控制器26也因此停止運作。 When the switching device 24 is turned on because of the first signal S2, the control The device 26 begins to receive power from the second power source 25 to operate. The controller 26 now monitors the logic state of the first signal S2 in addition to maintaining the operation of the electronic device. When the controller 26 detects that the logic level of the first signal S2 is pulled from the logic high level to the logic low level, a timer within the controller 26 begins to time. When the controller 26 detects that the logic level of the first signal S2 is maintained at the logic low level for a predetermined time, the controller 26 sends a second control signal S2 to the switching device 24 for turning off the switching device. twenty four. Since the switching device 24 is turned off, the second power source 25 also stops outputting power to the controller 26, and the controller 26 therefore stops operating.
要注意的是,開關裝置24在導通前是受控於第一信號S2,而導通後就不會因為第一信號S2的邏輯準位變化而被關閉。開關裝置24在導通後只會因為第二控制信號S2而被關閉。因此,開關裝置24在關閉狀態時是受控於感應電路23,而開關裝置24在導通狀態時是受控於控制器26。 It should be noted that the switching device 24 is controlled by the first signal S2 before being turned on, and is not turned off after being turned on because the logic level of the first signal S2 changes. The switching device 24 is only turned off by the second control signal S2 after being turned on. Therefore, the switching device 24 is controlled by the sensing circuit 23 in the off state, and the switching device 24 is controlled by the controller 26 in the on state.
在本實施例中,感應電路23的電力是由第一電源27所提供,而其他的電路元件(包括圖上未繪出之元件)都是由第二電源25所供電。但如果感測墊21與22沒有因為使用者觸碰而短路時,感測墊21與22、感應電路23與第一電源25並不會形成一電力迴路,因此感應電路23也不會消耗電力。同時,因為開關裝置24是關閉的狀態,開關裝置24、第二電源25以及控制器26也不會形成一電力迴路,第二電源25也不會輸出電力。因此,透過本實施例的電路設計,只要感測墊21與22沒有因為使用者觸碰而短路時,整體電路的功率消耗非常低,而達到省電的目的。 In the present embodiment, the power of the sensing circuit 23 is provided by the first power source 27, and other circuit components (including components not shown) are powered by the second power source 25. However, if the sensing pads 21 and 22 are not short-circuited by the user's touch, the sensing pads 21 and 22, the sensing circuit 23 and the first power source 25 do not form a power loop, so the sensing circuit 23 does not consume power. . At the same time, since the switching device 24 is in the off state, the switching device 24, the second power source 25, and the controller 26 also do not form a power circuit, and the second power source 25 does not output power. Therefore, through the circuit design of the embodiment, as long as the sensing pads 21 and 22 are not short-circuited by the user's touch, the power consumption of the overall circuit is very low, and the power saving is achieved.
第3圖為根據本發明之一具有生物感測裝置的電子裝置的另一實施例的示意圖。與第2圖所示之電子裝置相比,本實施例中,控制器36並無直接與第二電源35連接,而是透過開關裝置34與第二電源35連接。換言之,控制器36只能透過開關裝置34而被第二電源35供電,而無法直接被第二電源35供電。 Figure 3 is a schematic illustration of another embodiment of an electronic device having a biosensing device in accordance with the present invention. Compared with the electronic device shown in FIG. 2, in the present embodiment, the controller 36 is not directly connected to the second power source 35, but is connected to the second power source 35 through the switching device 34. In other words, the controller 36 can only be powered by the second power source 35 through the switching device 34 and cannot be directly powered by the second power source 35.
電子裝置包括感測墊31與32、感應電路33、第一電源37、開關裝置34、第二電源35以及控制器36。感測墊31與32設置在該電子裝置的一殼體上。感應電路33耦接感測墊31與32,且當感測墊31與32因為使用者觸碰而短路時,輸出一第一信號S3。在另一實施方式中,當感測墊31與32因為使用者觸碰而短路時,第一信號S3的邏輯準位從邏輯低準位被上拉到邏輯高準位。 The electronic device includes sensing pads 31 and 32, a sensing circuit 33, a first power source 37, a switching device 34, a second power source 35, and a controller 36. The sensing pads 31 and 32 are disposed on a housing of the electronic device. The sensing circuit 33 is coupled to the sensing pads 31 and 32, and outputs a first signal S3 when the sensing pads 31 and 32 are short-circuited by a user touch. In another embodiment, when the sensing pads 31 and 32 are short-circuited by the user's touch, the logic level of the first signal S3 is pulled up from the logic low level to a logic high level.
當開關裝置34因為第一信號S3而被導通時,控制器36透過開關裝置34接收第二電源35傳送來的電力而運作。控制器36此時除了維持電子裝置的運作外,也監控第一信號S3的邏輯狀態。當控制器36偵測到第一信號S3的邏輯準位從邏輯高準位被下拉到邏輯低準位時,控制器36內的一計時器開始計時。當控制器36偵測到第一信號S3的邏輯準位維持在邏輯低準位的時間已經超出一預定時間時,控制器36發出一第二控制信號S3給開關裝置34,用以關閉開關裝置34。因為開關裝置34被關閉了,所以第二電源35也停止輸出電力給控制器36,控制器36也因此停止運作。 When the switching device 34 is turned on because of the first signal S3, the controller 36 operates by receiving the power transmitted from the second power source 35 through the switching device 34. At this time, the controller 36 monitors the logic state of the first signal S3 in addition to the operation of the electronic device. When the controller 36 detects that the logic level of the first signal S3 is pulled from the logic high level to the logic low level, a timer in the controller 36 starts counting. When the controller 36 detects that the logic level of the first signal S3 is maintained at the logic low level for a predetermined time, the controller 36 sends a second control signal S3 to the switching device 34 for turning off the switching device. 34. Since the switching device 34 is turned off, the second power source 35 also stops outputting power to the controller 36, and the controller 36 therefore ceases to operate.
要注意的是,開關裝置34在導通前是受控於第一 信號S3,而導通後就不會因為第一信號S3的邏輯準位變化而被關閉。開關裝置34在導通後只會因為第二控制信號S3而被關閉。因此,開關裝置34在關閉狀態時是受控於感應電路33,而開關裝置34在導通狀態時是受控於控制器36。 It should be noted that the switching device 34 is controlled by the first before being turned on. Signal S3, when turned on, will not be turned off due to the logic level change of the first signal S3. The switching device 34 is only turned off by the second control signal S3 after being turned on. Therefore, the switching device 34 is controlled by the sensing circuit 33 in the off state, and the switching device 34 is controlled by the controller 36 in the on state.
在本實施例中,感應電路33的電力是由第一電源37所提供,而其他的電路元件(包括圖上未繪出之元件)都是由第二電源35所供電。但如果感測墊31與32沒有因為使用者觸碰而短路時,感測墊31與32、感應電路33與第一電源35並不會形成一電力迴路,因此感應電路33也不會消耗電力。同時,因為開關裝置34是關閉的狀態,開關裝置34、第二電源35以及控制器36也不會形成一電力迴路,第二電源35也不會輸出電力。因此,透過本實施例的電路設計,只要感測墊31與32沒有因為使用者觸碰而短路時,整體電路的功率消耗非常低,而達到省電的目的。 In the present embodiment, the power of the sensing circuit 33 is provided by the first power source 37, and other circuit components (including components not shown) are powered by the second power source 35. However, if the sensing pads 31 and 32 are not short-circuited by the user's touch, the sensing pads 31 and 32, the sensing circuit 33 and the first power source 35 do not form a power loop, so the sensing circuit 33 does not consume power. . Meanwhile, since the switching device 34 is in the off state, the switching device 34, the second power source 35, and the controller 36 do not form a power circuit, and the second power source 35 does not output power. Therefore, through the circuit design of the embodiment, as long as the sensing pads 31 and 32 are not short-circuited by the user's touch, the power consumption of the overall circuit is very low, and the power saving is achieved.
第4圖為根據本發明之一具有生物感測裝置的電子裝置的一實施例的示意圖。電子裝置包括感測墊41與42、感應電路43、開關裝置44、電源45、控制器46以及偵測電路47。感測墊41與42設置在該電子裝置的一殼體上。感應電路43耦接感測墊41與42,且當感測墊41與42因為使用者觸碰而短路時,輸出一第一信號S4。在另一實施方式中,當感測墊41與42因為使用者觸碰而短路時,第一信號S4的邏輯準位從邏輯低準位被上拉到邏輯高準位。 Figure 4 is a schematic illustration of an embodiment of an electronic device having a biosensing device in accordance with the present invention. The electronic device includes the sensing pads 41 and 42, the sensing circuit 43, the switching device 44, the power source 45, the controller 46, and the detecting circuit 47. The sensing pads 41 and 42 are disposed on a housing of the electronic device. The sensing circuit 43 is coupled to the sensing pads 41 and 42 and outputs a first signal S4 when the sensing pads 41 and 42 are short-circuited by a user's touch. In another embodiment, when the sensing pads 41 and 42 are shorted due to a user touch, the logic level of the first signal S4 is pulled up from the logic low level to a logic high level.
當開關裝置44因為第一信號S4而被導通時,控制器46開始接收電源45傳送來的電力而運作。控制器46此時除了 維持電子裝置的運作外,也監控第一信號S4的邏輯狀態。當控制器46偵測到第一信號S4的邏輯準位從邏輯高準位被下拉到邏輯低準位時,控制器46根據偵測電路47的偵測結果判斷是否要關閉開關裝置44。在本實施例中,偵測電路47用以偵測電子裝置是否處於一閒置狀態(idle)。當控制器46偵測到第一信號S4的邏輯準位從邏輯高準位被下拉到邏輯低準位且電子裝置處於一閒置狀態時,控制器46輸出第二控制信號S2以關閉開關裝置44。 When the switching device 44 is turned on because of the first signal S4, the controller 46 starts to receive power from the power source 45 to operate. Controller 46 is now except In addition to maintaining the operation of the electronic device, the logic state of the first signal S4 is also monitored. When the controller 46 detects that the logic level of the first signal S4 is pulled from the logic high level to the logic low level, the controller 46 determines whether to turn off the switching device 44 according to the detection result of the detecting circuit 47. In this embodiment, the detecting circuit 47 is configured to detect whether the electronic device is in an idle state. When the controller 46 detects that the logic level of the first signal S4 is pulled from the logic high level to the logic low level and the electronic device is in an idle state, the controller 46 outputs the second control signal S2 to turn off the switching device 44. .
舉例來說,如果電子裝置是滑鼠,偵測電路47會偵測滑鼠是否有移動或是是否有按鍵被按下來判斷電子裝置是否處於一閒置狀態(idle)。如果電子裝置是鍵盤,偵測電路47會偵測鍵盤上是否有按鍵被壓下來判斷電子裝置是否處於一閒置狀態。如果電子裝置是耳機,偵測電路47會偵測是否有音源信號被傳送到耳機,如果沒有的話,則電子裝置被判斷是處於一閒置狀態。 For example, if the electronic device is a mouse, the detecting circuit 47 detects whether the mouse has moved or whether a button is pressed to determine whether the electronic device is in an idle state. If the electronic device is a keyboard, the detecting circuit 47 detects whether a button on the keyboard is pressed to determine whether the electronic device is in an idle state. If the electronic device is a headset, the detection circuit 47 detects whether a sound source signal is transmitted to the earphone, and if not, the electronic device is judged to be in an idle state.
要注意的是,開關裝置44在導通前是受控於第一信號S4,而導通後就不會因為第一信號S4的邏輯準位變化而被關閉。開關裝置44在導通後只會因為第二控制信號S2而被關閉。因此,開關裝置44在關閉狀態時是受控於感應電路43,而開關裝置44在導通狀態時是受控於控制器46。 It is to be noted that the switching device 44 is controlled by the first signal S4 before being turned on, and is not turned off after the turn-on after the logic level change of the first signal S4. The switching device 44 is only turned off by the second control signal S2 after being turned on. Therefore, the switching device 44 is controlled by the sensing circuit 43 in the off state, and the switching device 44 is controlled by the controller 46 in the on state.
在本實施例中,感應電路43的電力是由電源45所提供。但如果感測墊41與42沒有因為使用者觸碰而短路時,感測墊41與42、感應電路43與電源45並不會形成一電力迴路,因此感應電路43也不會消耗電力。因此,透過本實施例的電路設 計,只要感測墊41與42沒有因為使用者觸碰而短路時,整體電路的功率消耗非常低,而達到省電的目的。 In the present embodiment, the power of the sensing circuit 43 is provided by the power source 45. However, if the sensing pads 41 and 42 are not short-circuited by the user's touch, the sensing pads 41 and 42, the sensing circuit 43 and the power source 45 do not form a power loop, so the sensing circuit 43 does not consume power. Therefore, through the circuit design of this embodiment As long as the sensing pads 41 and 42 are not short-circuited by the user's touch, the power consumption of the overall circuit is very low, and the purpose of power saving is achieved.
第5圖為根據本發明之一具有生物感測裝置的電子裝置的運作方法的一實施例的流程圖。本實施例所述之電子裝置可以是第1至第4圖所示之電子裝置。在步驟S51中,一感應電路偵測到兩個感測墊被短路,因此輸出一第一信號S1。在步驟S52中,一開關裝置因為第一信號S1而被導通,使得電子裝置內的一控制器被供電。在步驟S53中,控制器持續監控第一信號S1的邏輯準位,並判斷第一信號S1的邏輯準位是否有變化。如果第一信號S1的邏輯準位沒有改變,則步驟S54被執行,控制器持續被供電。 Figure 5 is a flow chart of an embodiment of a method of operating an electronic device having a biosensing device in accordance with the present invention. The electronic device described in this embodiment may be the electronic device shown in FIGS. 1 to 4. In step S51, a sensing circuit detects that the two sensing pads are short-circuited, thus outputting a first signal S1. In step S52, a switching device is turned on because of the first signal S1, so that a controller in the electronic device is powered. In step S53, the controller continuously monitors the logic level of the first signal S1 and determines whether the logic level of the first signal S1 changes. If the logic level of the first signal S1 has not changed, then step S54 is performed and the controller continues to be powered.
如果第一信號S1的邏輯準位被改變,則步驟S55被執行。在步驟S55中,控制器內的一計時器開始計時。當控制器偵測到第一信號S1的邏輯準位改變的時間已經超出一預定時間時,控制器發出一第二控制信號S2給開關裝置。在步驟S56中,開關裝置收到第二控制信號S2而被關閉,此時電子裝置內的電源也停止供電給控制器。只有等到兩個感測墊再次被短路,電子裝置才會再次運作。 If the logic level of the first signal S1 is changed, step S55 is performed. In step S55, a timer in the controller starts timing. When the controller detects that the logic level of the first signal S1 has changed for more than a predetermined time, the controller sends a second control signal S2 to the switching device. In step S56, the switching device receives the second control signal S2 and is turned off, at which time the power supply in the electronic device also stops supplying power to the controller. The electronic device will only operate again until the two sensing pads are shorted again.
第6圖為根據本發明之一具有生物感測裝置的電子裝置的運作方法的另一實施例的流程圖。本實施例所述之電子裝置可以是第1至第4圖所示之電子裝置。在步驟S61中,一感應電路偵測到兩個感測墊被短路,因此輸出一第一信號S1。在步驟S62中,一開關裝置因為第一信號S1而被導通,使得電子裝置內的一控制器被供電。在步驟S63中,控制器持續監控 第一信號S1的邏輯準位,並判斷第一信號S1的邏輯準位是否有變化。如果第一信號S1的邏輯準位沒有改變,則步驟S64被執行,控制器持續被供電。 Figure 6 is a flow chart showing another embodiment of a method of operating an electronic device having a biosensing device in accordance with the present invention. The electronic device described in this embodiment may be the electronic device shown in FIGS. 1 to 4. In step S61, a sensing circuit detects that the two sensing pads are short-circuited, thus outputting a first signal S1. In step S62, a switching device is turned on because of the first signal S1, so that a controller in the electronic device is powered. In step S63, the controller continuously monitors The logic level of the first signal S1 determines whether the logic level of the first signal S1 changes. If the logic level of the first signal S1 has not changed, then step S64 is performed and the controller continues to be powered.
如果第一信號S1的邏輯準位被改變,則步驟S65被執行。在步驟S65中,控制器根據電子裝置內的偵測電路的偵測結果判斷是否要關閉開關裝置。在本實施例中,偵測電路用以偵測電子裝置是否處於一閒置狀態(idle)。當控制器偵測到第一信號S1的邏輯準位從邏輯高準位被下拉到邏輯低準位且電子裝置處於一閒置狀態時,控制器輸出第二控制信號S2以關閉開關裝置。在步驟S66中,開關裝置收到第二控制信號S2而被關閉,此時電子裝置內的電源也停止供電給控制器。只有等到兩個感測墊再次被短路,電子裝置才會再次運作。 If the logic level of the first signal S1 is changed, step S65 is performed. In step S65, the controller determines whether to turn off the switching device according to the detection result of the detecting circuit in the electronic device. In this embodiment, the detecting circuit is configured to detect whether the electronic device is in an idle state. When the controller detects that the logic level of the first signal S1 is pulled from the logic high level to the logic low level and the electronic device is in an idle state, the controller outputs a second control signal S2 to turn off the switching device. In step S66, the switching device receives the second control signal S2 and is turned off, at which time the power supply in the electronic device also stops supplying power to the controller. The electronic device will only operate again until the two sensing pads are shorted again.
第7圖為根據本發明之一具有生物感測裝置的滑鼠示意圖。在本實施例中,滑鼠具有如第1至第4圖所示之電路結構。滑鼠具有一第一按鍵71與第二按鍵72,且第一感測器73設置在第一按鍵71的表面,第二感測器74設置在第二按鍵72的表面。在一實施例中,第一感測器73與第二感測器74為一金屬電極片。在另一實施例中,第一感測器73與第二感測器74由導電材料所製成,如導電橡膠。在另一實施例中,第一感測器73與第二感測器74可分別設立在區域75、76。區域75及76是使用者使用滑鼠時,手掌會碰觸到滑鼠的區域。在另一實施方式中,第一感測器73與第二感測器74可以以矩陣形式設置在滑鼠的殼體上。 Figure 7 is a schematic view of a mouse having a biosensing device in accordance with the present invention. In the present embodiment, the mouse has the circuit configuration as shown in Figs. 1 to 4. The mouse has a first button 71 and a second button 72, and the first sensor 73 is disposed on the surface of the first button 71, and the second sensor 74 is disposed on the surface of the second button 72. In an embodiment, the first sensor 73 and the second sensor 74 are a metal electrode piece. In another embodiment, the first sensor 73 and the second sensor 74 are made of a conductive material, such as a conductive rubber. In another embodiment, the first sensor 73 and the second sensor 74 can be respectively located in the regions 75, 76. Areas 75 and 76 are areas where the palm touches the mouse when the user uses the mouse. In another embodiment, the first sensor 73 and the second sensor 74 may be disposed in a matrix on the housing of the mouse.
第8圖為根據本發明之一具有生物感測裝置的無 線耳機示意圖。無線耳機具有如第1至第4圖所示之電路結構。在本實施例中第一感測器81與第二感測器82的位置如圖所示。在一實施例中,第一感測器81與第二感測器82由導電材料所製成,如導電橡膠。 Figure 8 is a diagram showing the absence of a biosensing device according to one of the present invention. Line headphone schematic. The wireless earphone has a circuit configuration as shown in Figs. 1 to 4. The positions of the first sensor 81 and the second sensor 82 in this embodiment are as shown. In an embodiment, the first sensor 81 and the second sensor 82 are made of a conductive material, such as a conductive rubber.
惟以上所述者,僅為本發明之較佳實施例而已,當不能以此限定本發明實施之範圍,即大凡依本發明申請專利範圍及發明說明內容所作之簡單的等效變化與修飾,皆仍屬本發明專利涵蓋之範圍內。另外本發明的任一實施例或申請專利範圍不須達成本發明所揭露之全部目的或優點或特點。此外,摘要部分和標題僅是用來輔助專利文件搜尋之用,並非用來限制本發明之權利範圍。 The above is only the preferred embodiment of the present invention, and the scope of the invention is not limited thereto, that is, the simple equivalent changes and modifications made by the scope of the invention and the description of the invention are All remain within the scope of the invention patent. In addition, any of the objects or advantages or features of the present invention are not required to be achieved by any embodiment or application of the invention. In addition, the abstract sections and headings are only used to assist in the search of patent documents and are not intended to limit the scope of the invention.
11、12‧‧‧感測墊 11, 12‧‧‧ Sense pads
13‧‧‧感應電路 13‧‧‧Induction circuit
14‧‧‧開關裝置 14‧‧‧Switching device
15‧‧‧電源 15‧‧‧Power supply
16‧‧‧控制器 16‧‧‧ Controller
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