本論文主要探討2.4GHz與觸碰滑鼠之原理及其製作，在不改變現今機械式按鍵滑鼠產品使用習慣的前提下，整合電子及機構的特性，及增加客製化的功能，以提高產品的競爭力，此無線觸碰滑鼠之製作可由電子、機構及軟體方面進行探討。 在電子方面，可由微控制器(Microprocessor Control Unit，MCU) 整合CPU(Central Processing Unit，CPU)、射頻晶片、IO、memory等一些功能去探討以減少周邊零件數量、匹配及費用，提高CPU與射頻晶片的契合度、增加穩定性。 在機構方面，探討將現今之按壓結構改變為觸碰方式，如此可減少開模的費用及增加產品功能設計的靈活度。 而在軟體方面，利用演算法及功能的判斷，不僅可以替代傳統的滑鼠機械式按鍵，同時還可以增加客製化的功能。 此論文將針對硬體及軟體方面，對於2.4GHz無線滑鼠進行整合性設計及研究之探討。 In this thesis it is mainly to discuss the design principle and fabrication process of a 2.4 GHz wireless touch mouse from the consideration of not changing the familiar or got used way the user in using the current touch mouse; it integrates electronics and the characteristics of mechanism in the wireless touch mouse fabrication; it is not only increasing the customization features of the products but also improving the products competitiveness.
In the electronics part it is by way of using microprocessor control unit (MCU) to integrate the functions of central processing unit (CPU), RF chip, IO, memory etc. so as to reduce the required number in the peripheral parts, in the matching requirement among parts and the incurring cost; and finally to improve the conformity between CPU and RF chips and to increase their stability.
In the product mechanism it considers of how to change the product features from the current pressing mode into touch mode so as to decrease the product cost and to improve the product’s flexibility. In the software it utilizes algorithms and features decisions to replace the fabrication process of the conventional pressing mode mouse and then to improve the product’s flexibility.
Overall in this thesis it will consider from the integration of software and hardware features to design a 2.4 GHz wireless touch mouse to replace the conventional press mode mouse.