DE102005024896A1 - Optical mouse, has sensing unit detecting reflected beam of coherent light source or incoherent light source to form sensing signal by analyzing track pattern of mouse during movement over surface - Google Patents

Abstract

The mouse has a sensing unit detecting a reflected beam of a coherent light source (36) or an incoherent light source (37) to form a sensing signal by analyzing a track pattern of the mouse during movement over the surface. A control unit is electrically connected to the sensing unit for controlling a suitable timing to drive the source (36) or the source (37) by analyzing the sensing signal. An interface unit is electrically connected to a computer host, a button, the sources (36 37) for communicating an input/output signal of an integrated circuit unit (33). An independent claim is also included for a method for operating an optical mouse.

Description

The The present invention relates to a dual-optical mouse Light source and a method of using the same and in particular an optical mouse that is placed on many different surfaces Using one of the two light sources works properly. Further The optical mouse switches the light sources by hand or by means of a automatic sensor device.

It will open 1 Referenced. The working speed of a computer central unit 10 is very high, since a CPU can run hundreds of millions of operation instructions per second, and it is increased annually. Various peripheral units are necessary for a user to use with the computer central unit 10 and communicate with it, such as a monitor 12 to the information processes of the computer center unit 10 display, and a keyboard 11 to enter the computer center 10 To enter commands. In particular, if a Windows operating system (such as Windows 2000 or Linux OS) is used is a mouse 13 a useful input peripheral unit. To the efficiency of the mouse 13 in terms of function and technology is the mouse 13 from a mechanical mouse to an optical-mechanical mouse or optical mouse.

It will be on the 2 and 1 Referenced. An optical mouse 20 has a housing 21 open, which can be opened or closed. It also has an integrated circuit unit 23 on. The integrated circuit unit 23 has a sensor 231 and a controller 232 on. The sensor 231 and the controller 232 In particular, ICs are ICs, and they are connected to a printed circuit board (PCB) by surface mount technology (SMT). The optical mouse 20 has a cable 24 on top of that, the integrated circuit unit 23 and the computer central unit 10 electrically connected so that they are linked and can communicate with each other.

There is at least one button 22 on the outside surface of the case 21 , The key 22 has a key interface 221 on that electrically with the cable 24 inside the case 21 connected is. A trigger signal is sent to the integrated circuit unit 23 by touching the key 22 Posted. The controller 232 the integrated circuit unit 23 transmits a control signal to the computer central unit 10 , so that the executed result on the monitor 12 is shown. Furthermore, the sensor detects 231 a horizontal vector and a vertical vector if a light source 25 the optical mouse 20 is moved over a certain area, and receives a reflection signal. The movement pattern thereof is then sent to the computer central unit 10 transfer. Consequently, the movement and the direction of the optical mouse become 20 on the monitor 12 displayed.

In the prior art, the optical mouse 20 a disadvantage in terms of motion sensitivity and the DPI (dots per inch) resolution, because the sensor signal with which the optical mouse 20 the surface-derived reflection is detected by the surface property and the wavelength of the light source 25 is limited. Therefore, a user must purchase a special reflective pad and the optical mouse 25 use on it. If the user abrades or loses the reflective pad, he must purchase a new one. However, it is uncomfortable that you get some optical mice 20 Although the special reflector pad does not have to use, but for them a higher reflectivity of the surface is necessary.

The overcomes the present invention the disadvantages of the sensor sensitivity of the optical mouse after The prior art and the difficulties in use the same. To achieve the above objective, the present invention Invention an optical mouse having a dual light source, and a method of using the same. The sensor sensitivity and the degree of accuracy on different surfaces improved by using a coherent light source and a incoherent Light source. Further, the light source of the present invention, the dependent on the movement pattern detected on the surfaces is selected, be turned on by hand or automatically.

The optical mouse of the present invention having a dual light source comprises a housing, a coherent light source, an incoherent light source and an integrated circuit unit. The housing can be opened and closed and has at least one button, which is arranged on its outer surface. The housing further comprises at least one switch or at least one arranged on its outer surface special key for switching on the coherent light source, the incoherent light source or an automatic switching mode. The coherent light source and the incoherent light source are disposed within the housing for providing a light beam so that the area is illuminated and then the beam is reflected onto the integrated circuit unit. The integrated circuit unit, which is arranged inside the housing, is connected to a computer central unit, electrically connected to the button, the switch and the special button. The integrated circuit unit is connected to the computer center unit by means of cable or wireless technology.

The integrated circuit unit has at least one sensor unit, a control unit and an interface unit. The sensor unit detects the reflected beam of the coherent light source or the incoherent Light source to a sensor signal by analyzing the movement pattern of the while making optical mouse they are about the surface emotional. The sensor unit is an optical sensor, and the coherent light source and the incoherent one Light source can be used together to illuminate the same optical sensor, or for that be used, each to illuminate its own optical sensor. The control unit is electrically connected to the sensor unit, so that the optical mouse and the computer central unit are linked and communicate with each other, and for an appropriate time Control to the coherent Light source or the incoherent Operate the light source, by analyzing the sensor signal, wherein the control unit is a controller. The interface unit is with the computer central unit, with the button, with the coherent light source and the incoherent Light source electrically connected to the input / output signal the integrated circuit unit to communicate. The integrated Circuitry unit also has a volatile or a non-volatile Memory for storing the sensor signals transmitted from the sensor unit are used, and for storing the control signals, the transmitted from the control unit become.

One A method of operating an optical mouse of the present invention with a dual light source when a user views one Select automatic switching mode, following steps: operating an optical mouse that has a has dual light source, from a computer center unit; Determine if the optical mouse is using an automatic switching mode To press activates at least one switch or a special key; Operate a coherent Light source of the optical mouse by means of the computer center unit, when the automatic mode is turned on; and determining if the optical mouse detects a suitable sensor signal. If the answer is yes, do it Method the coherent Light source, otherwise the coherent light source will be turned off and the incoherent one Light source is switched on.

One Another method of operating an optical mouse according to the present invention Invention with a dual light source, when a user select a hand switch mode, following steps: operating an optical mouse that has a has dual light source, from a computer center unit; Determine if the optical mouse has an automatic switching mode by pressing at least a switch or a special key turns on; and determining whether the optical mouse is an incoherent one Light source of the optical mouse by pressing at least one switch or a special key when a user does not have an automatic switching mode turns. If the answer is yes, do it Method the incoherent Otherwise, the incoherent light source will be turned off and the coherent one Light source is switched on.

The various objects and advantages of the present invention understood more readily by the following detailed description, when read in conjunction with the attached drawing, in the:

1 Figure 3 is a schematic representation of the architecture of the interaction between a computer and a mouse of the prior art;

2 is a schematic representation of the architecture of the optical mouse according to the prior art;

3 Figure 3 is a schematic representation of the optical mouse architecture with a dual light source in accordance with the present invention;

4A is a schematic representation of the architectural profile of the optical mouse with a dual light source in the first embodiment of the present invention;

4B Figure 3 is a schematic representation of the architectural profile of the optical mouse with a dual light source in an alternative embodiment of the present invention;

5 Fig. 10 is a flowchart of the method of operating the optical mouse in an automatic switching mode of the present invention; and

6 Fig. 10 is a flowchart of the method of operating the optical mouse in a hand switching mode of the present invention.

It will open 3 Referenced. The optical mouse 30 with a dual light source has a housing 31 , a coherent light source 36 , an incoherent light source 37 and an integrated circuit unit 33 on. The housing 31 which can be opened and closed, has at least one key 32 placed on its outer surface to allow a user to make a request to the computer center 10 enters. The housing 31 also has at least one switch or at least one special key 35 placed on its outer surface, for turning on the coherent light source 36 , the incoherent light source 37 or an automatic switching mode. The coherent light source 36 and the incoherent light source 37 are inside the case 31 for providing a light beam to illuminate the surface and then the light beam to the integrated circuit unit 33 is reflected. The coherent light source 36 is a laser light with a wavelength of 600-1060 nm, and the incoherent light source 37 is an LED with visible or invisible light. The integrated circuit unit 33 which can be a printed circuit board inside the case 31 is arranged with the button interface 321 the button 32 , with the interface 351 the special key 35 , with the coherent light source 36 and the incoherent light source 37 by means of a cable 34 electrically connected. The integrated circuit unit 33 is with the computer central unit 10 electrically connected by means of a cable or wireless; therefore, the optical mouse 30 be a mouse with a cable or a wireless optical mouse.

It will be on the 4A and 3 Referenced. The integrated circuit unit 33 has at least one sensor unit 331 , a control unit 332 and an interface unit 334 on. The signal is sent via a bus 335 communicated. The sensor unit 331 , which may be an optical sensor, receives the light beam of the coherent light source or the incoherent light source reflected from the surfaces by means of its optical element 331a and then transfers them to a photosensor element 331b as she moves across the surfaces; the sensor unit 331 is used to measure the movement pattern of the optical mouse 30 to analyze and form a sensor signal. It should be noted that the coherent light source 36 and the incoherent light source 37 be used together to illuminate the same optical sensor.

The control unit 332 connected to the sensor unit 331 electrically connected, can be a controller, so that the optical mouse 30 and the computer central unit 10 are linked and communicate with each other, and for proper timing by analyzing the sensor signal to the coherent light source 36 or the incoherent light source 37 to operate. The interface unit 334 is used to control the input / output signal of the integrated circuit unit 33 to communicate, and it is with the computer central unit 10 , with the button interface 321 the button 32 , with the special button interface 351 the special key 35 , with the coherent light source 36 and the incoherent light source 37 electrically connected. The integrated circuit unit 33 also has a memory unit 333 , which may be a volatile memory or a non-volatile memory used to detect the sensor signals received from the sensor unit 331 be transferred, and the control signals from the control unit 332 be transferred to store.

It will open 4B and 3 Referenced. There is obviously a difference in that the coherent light source 36 and the incoherent light source 37 can be used to illuminate an optical sensor.

When operating the optical mouse 30 must be the integrated circuit unit 33 analyze the sensor signal, which of the movement pattern of the optical mouse 30 is derived as it moves across the surface and then set an appropriate time to the coherent light source 36 or the incoherent light source 37 turn on /. The optical mouse 30 The direction and the distances of the movement can be obtained with high sensitivity and accuracy by turning on a suitable light source. The optical mouse 30 can select a best light source by pressing the special key or a best light source by using the integrated circuit unit 33 automatically select.

It will open 5 Referenced. A method of operating the optical mouse 30 According to the present invention, with a dual light source in which a user selects an automatic switching mode, comprises the steps of: operating an optical mouse 30 , which has a dual light source, from the computer central unit 10 out (step 500 ); Determine if the optical mouse 30 an automatic switching mode by pressing a special key 35 the optical mouse 30 turns on (step 502 ); Operating a coherent light source 36 the optical mouse 30 by means of the computer central unit 10 when the auto mode is on (step 504 ); Determine if the optical mouse 30 detects a suitable sensor signal (step 506 ); if the answer is "yes", continue driving the coherent light source 36 (Step 508 ); and if the answer is no, then turn off the coherent light source 36 and turning on the incoherent light source 37 (Step 510 ). In the automatic switching mode, the optical mouse performs 30 the step 506 continue to turn on the desired light source.

It will open 6 Referenced. Another method for operating the optical mouse 30 of the present invention with a dual light source in which a user selects a manual switching mode comprises the steps of operating an optical mouse 30 with a dual light source from the computer center unit 10 out (step 600 ); Determine if the optical mouse 30 an automatic switching mode by pressing a special key 35 turns on (step 602 ); Determine if the optical mouse 30 an incoherent light source 37 the optical mouse 30 by pressing the special key 35 turns on when a user does not turn on an automatic switching mode (step 604 ); if the answer is yes, operate the incoherent light source 37 (Step 606 ); and otherwise turning off the incoherent light source 37 and turning on the coherent light source 36 (Step 608 ). In the manual switching mode, the optical mouse leads 30 continue the step 604 to turn on the desired light source.

A Optical mouse has two light sources and a method of use same and increases the sensor sensitivity and the degree of accuracy on many different surfaces, such as rough surfaces or smooth surfaces, by using a coherent Light source and one incoherent Light source and by adapting any angle of the arrangement of both. Furthermore, the present invention provides an automatic switching mode and a hand switching mode ready to select a desired light source, wherein the automatic switching mode turns on the required light source, which depends on the movement pattern, that on the surfaces is derived, is derived. Finally, to build a suitable Specification the coherent Light source and the incoherent Light source can be used in common to the same optical sensor light up, or for that be used to illuminate an optical sensor.

Even though the present invention with reference to its preferred embodiments has been described, it goes without saying that they are not on whose details are limited is. Various substitutions and modifications have been made in the foregoing Description excited, and others will come up with professionals. Therefore should all such substitutions and modifications in the field of the invention as defined in the appended claims is.

10

Computer central processing unit

11

keyboard

12

monitor

13

mouse

20

optical mouse

21

casing

22

button

221

Button interface

23

integrated Circuit unit

231

sensor

232

controller

24

electric wire

25

light source

30

optical mouse

31

casing

32

button

321

Button interface

33

integrated Circuit unit

34

electric wire

35

special key

351

Special keys interface

36

coherent light source

37

incoherent light source

331

sensor unit

331a

optical element

331b

Photosensor element

332

control unit

333

storage unit

334

Interface unit

335

bus

Claims (27)

Optical mouse ( 30 ) with a dual light source, comprising: a housing ( 31 ) that can be opened and closed and that has at least one button ( 32 ), which on an outer surface of the housing ( 31 ) is arranged; a coherent light source ( 36 ) and an incoherent light source ( 37 ), which are inside the housing ( 31 ) are arranged to provide a light beam so that a surface is illuminated, then the light beam is reflected from the surface; and an integrated circuit unit ( 33 ), which are inside the housing ( 31 ) and electrically connected to a computer central unit ( 10 ) and the button ( 32 ), comprising: at least one sensor unit ( 331 ) reflecting the reflected light beam from the coherent light source ( 36 ) or the incoherent light source ( 37 ) to detect a sensor signal by analyzing a movement pattern of the optical mouse ( 30 ) during movement over the surface; a control unit ( 332 ) connected to the sensor unit ( 331 ) is electrically connected so that the optical mouse ( 30 ) and the computer central unit ( 10 ) and is communicated between them, and for a suitable timing by analyzing the sensor signal to the coherent light source ( 36 ) or the incoherent light source ( 37 ) to operate; and an interface unit ( 334 ) connected to the computer central unit ( 10 ), with the button ( 32 ), with the coherent light source ( 36 ) and the incoherent light source ( 37 ) for communicating an on output signal of the integrated circuit unit ( 33 ) is electrically connected; the optical mouse ( 30 ) on different surfaces by using one of the two light sources ( 36 . 37 ) and the optical mouse ( 30 ) controls an appropriate time coordination by analyzing the sensor signal to one of the two light sources ( 36 . 37 ) on or off. Optical mouse ( 30 ) according to claim 1, which is connected to the computer central unit ( 10 ) is electrically connected by means of cable or wireless technology. Optical mouse ( 30 ) according to claim 1, further comprising at least one switch or a special key ( 35 ), which on the outer surface of the housing ( 31 ) is arranged to turn on / off the coherent light source ( 36 ), the incoherent light source ( 37 ) or an automatic switching mode. Optical mouse ( 30 ) according to claim 1, wherein the coherent light source ( 36 ) is a laser light. Optical mouse ( 30 ) according to claim 4, wherein a wavelength range of the laser light is about 600-1060 nm. Optical mouse ( 30 ) according to claim 1, wherein the incoherent light source ( 37 ) is an LED with visible or invisible light. Optical mouse ( 30 ) according to claim 1, wherein the control unit ( 332 ) is a controller. Optical mouse ( 30 ) according to claim 1, wherein the sensor unit ( 331 ) is an optical sensor. Optical mouse ( 30 ) according to claim 1, wherein the coherent light source ( 36 ) and the incoherent light source ( 37 ) can be used together to form a sensor unit ( 331 ) of it. Optical mouse ( 30 ) according to claim 1, wherein the coherent light source ( 36 ) and the incoherent light source ( 37 ) can be used to connect one sensor unit ( 331 ) of it. Optical mouse ( 30 ) according to claim 1, wherein the integrated circuit unit ( 33 ) further comprises a volatile memory or a non-volatile memory ( 333 ) having. Method for operating an optical mouse with a dual light source, comprising the following steps: (a) operating an optical mouse ( 30 ) with a dual light source from a computer (S500); (b) determining if the optical mouse ( 30 ) with a dual light source an automatic switching mode by pressing at least one switch or a special key ( 35 ) turns on (S502); (c) operating a coherent light source ( 36 ) of the optical mouse ( 30 ) (S504); (d) determining if the optical mouse ( 30 ) detects a suitable sensor signal (S506); and (e) continuously operating the coherent light source ( 36 ) (S508). Method for operating the optical mouse ( 30 ) according to claim 12, wherein if in step (d) an answer is "yes", subsequent steps are carried out and if the answer is "no" the method performs the step of: (f) turning off the coherent light source ( 36 ) and switching on an incoherent light source ( 37 ) (S510). Method for operating the optical mouse ( 30 ) according to claim 12 or 13, wherein the process returns to step (d) after step (e) or (f) is completed. Method for operating the optical mouse ( 30 ) according to claim 12, wherein if in step (b) a response is "yes", subsequent steps are performed, and if the answer is "no", the method performs the steps of: (g) determining whether the optical mouse an incoherent light source ( 36 ) turns on ( 604 ); and (h) operating the incoherent light source ( 37 ) (S606). Method for operating the optical mouse ( 30 ) according to claim 15, wherein if in step (d) an answer is "yes", subsequent steps are carried out and if the answer is "no" the method performs the step of: (i) switching off the incoherent light source ( 37 ) and switching on the coherent light source ( 36 ) (S608). A method for operating the optical mouse Claim 15 or 16, wherein the method returns to step (g) after Step (h) or (i) is completed. Method for operating the optical mouse ( 30 ) according to claim 12, wherein the optical mouse ( 30 ) comprises: a housing ( 31 ) that can be opened and closed and that has at least one button ( 32 ), which on the outer surface of the housing ( 31 ) is arranged; a coherent light source ( 36 ) and an incoherent light source ( 37 ), which are inside the housing ( 31 ) for providing a light beam so that a surface is illuminated and then the light beam is reflected from the surface; and an integrated circuit unit ( 33 ), which are inside the housing ( 31 ) and electrically connected to a computer central unit ( 10 ) and the button ( 32 ), comprising: at least one sensor unit ( 331 ) reflecting the reflected light beam from the coherent light source ( 36 ) or the incoherent light source ( 37 ) to detect a sensor signal by analyzing a movement pattern of the optical mouse ( 30 ) during movement over the surface; a control unit ( 332 ) connected to the sensor unit ( 331 ) is electrically connected so that the optical mouse ( 30 ) and the computer central unit ( 10 ) and for a suitable timing by analyzing the sensor signal to the coherent light source ( 36 ) or the incoherent light source ( 37 ) to operate; and an interface unit ( 334 ) connected to the computer central unit ( 10 ), with the button ( 32 ), with the coherent light source ( 36 ) and the incoherent light source ( 37 ) for communicating an input / output signal of the integrated circuit unit ( 33 ) is electrically connected. Method for operating the optical mouse ( 30 ) according to claim 18, wherein the optical mouse ( 30 ) with a computer central unit ( 10 ) is connected by cable or wireless technology. Method for operating the optical mouse ( 30 ) according to claim 18, wherein the coherent light source ( 36 ) is a laser light. Method for operating the optical mouse ( 30 ) according to claim 20, wherein a wavelength range of the laser light is about 600-1060 nm. Method for operating the optical mouse ( 30 ) according to claim 18, wherein the incoherent light source ( 37 ) is an LED with visible or invisible light. Method for operating the optical mouse ( 30 ) according to claim 18, wherein the control unit ( 332 ) is a controller. Method for operating the optical mouse ( 30 ) according to claim 18, wherein the sensor unit ( 331 ) is an optical sensor. Method for operating the optical mouse ( 30 ) according to claim 18, wherein the coherent light source ( 36 ) and the incoherent light source ( 37 ) can be used together to form a sensor unit ( 331 ) of it. Method for operating the optical mouse ( 30 ) according to claim 18, wherein the coherent light source ( 36 ) and the incoherent light source ( 37 ) are used to illuminate each of their own sensor unit thereof. Method for operating the optical mouse ( 30 ) according to claim 18, wherein the integrated circuit unit ( 33 ) further comprises a volatile memory or a non-volatile memory ( 333 ) having.