The present invention relates to a power consumption testing system and a related power consumption testing method, and more particularly to a power consumption testing system and a power consumption testing method for a wireless mouse.
Generally, a conventional power consumption testing method and system for a wireless mouse uses a complicated automated testing device to continuously move the wireless mouse, to simulate an actual operation status of the wireless mouse and collect statistics of a power consumption situation by means of this. However, an automated testing device in conventional technologies has disadvantages of high costs and complicated operations.
In view of the above, an object of the present invention provides a power consumption testing system and a power consumption testing method for a wireless mouse, to make a process for testing power consumption of the wireless mouse easier and have low costs, to resolve the foregoing problem.
Claims of the present invention disclose a power consumption testing system for a wireless mouse. The power consumption testing system includes: a platform; a flexible thin sheet; a first movable fixed component; a second movable fixed component; a vibration motor; and a processing apparatus. The first movable fixed component is configured to connect the flexible thin sheet and the platform. The second movable fixed component is configured to connect the wireless mouse to the flexible thin sheet or the platform. The vibration motor is connected to the flexible thin sheet and is configured to shake the flexible thin sheet so that the wireless mouse continuously moves on the flexible thin sheet. The processing apparatus is wirelessly connected to the wireless mouse and is configured to read and record a voltage value of the wireless mouse to determine a battery capacity of the wireless mouse.
The claims of the present invention disclose a power consumption testing method for a wireless mouse. The power consumption testing method includes: connecting a flexible thin sheet and a platform by using a first movable fixed component; connecting the wireless mouse to the flexible thin sheet or the platform by using a second movable fixed component; shaking the flexible thin sheet by using a vibration motor so that the wireless mouse continuously moves on the flexible thin sheet; and reading and recording a voltage value of the wireless mouse by using a processing apparatus to determine a battery capacity of the wireless mouse.
In conclusion, the power consumption testing system and the power consumption testing method disclosed in the present invention can make a process for testing power consumption of the wireless mouse easier and have low costs.
These and other objectives of the present invention will no doubt become obvious to those of ordinary skill in the art after reading the following detailed description of the preferred embodiment that is illustrated in the various figures and drawings.
Some words are used in the present patent specification and claims to refer to particular components. A person of general knowledge in the art should understand that a hardware manufacturer may use different nouns to call a same component. The present patent specification and claims do not use differences between names as a manner for distinguishing components but use functional differences as a rule for distinguishing. “Include” or “comprise” mentioned in the whole specification and claims are open wordings and therefore, should be explained as “including but not limited to”.
Referring to
It should be noted herein that the foregoing embodiments are only used as examples for description of the present invention and are not limitation conditions of the present invention. For example, the platform 102, the flexible thin sheet 104, the first movable fixed component 106, the second movable fixed component 108, and the processing apparatus 120 all can be replaced by other components having similar functions according to different design demands.
Referring to
In a step 300, a flexible thin sheet and a platform are connected by using a first movable fixed component.
In a step 310, the wireless mouse is connected to the flexible thin sheet or the platform by using a second movable fixed component.
In a step 320, the flexible thin sheet is shaken by using a vibration motor so that the wireless mouse continuously moves on the flexible thin sheet.
In a step 330, a voltage value of the wireless mouse is read and recorded by using a processing apparatus to determine a battery capacity of the wireless mouse.
In conclusion, the power consumption testing system and the power consumption testing method disclosed in the present invention can make a process for testing power consumption of the wireless mouse easier and have low costs.
The foregoing descriptions are merely exemplary embodiments of the present invention. Variations and modifications made according to the claims of the present invention should be all within coverage of the present invention.
Those skilled in the art will readily observe that numerous modifications and alterations of the device and method may be made while retaining the teachings of the invention. Accordingly, the above disclosure should be construed as limited only by the metes and bounds of the appended claims.
Number | Date | Country | Kind |
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105141382 | Dec 2016 | TW | national |