Force sensing switch

What is claimed is: 1 . A force sensing switch for an electronic device, comprising: a deflectable beam; a dome switch disposed over a top surface of the deflectable beam; and a strain gauge disposed over a surface of the deflectable beam. 2 . The force sensing switch as in claim 1 , wherein the deflectable beam includes support structures that extend out from the deflectable beam and connect to a support surface. 3 . The force sensing switch as in claim 1 , further comprising at least one additional strain gauge disposed over a surface of the deflectable beam. 4 . The force sensing switch as in claim 3 , wherein at least one additional strain gauge is disposed over the top surface of the deflectable beam. 5 . The force sensing switch as in claim 1 , wherein the strain gauge is disposed over the top surface of the deflectable beam. 6 . An electronic device, comprising: a force sensing switch, comprising: a deflectable beam; a dome switch disposed over a top surface of the deflectable beam; and a strain gauge disposed over a surface of the deflectable beam; and a processing device operatively connected to the strain gauge and adapted to determine an amount of applied force based on a strain measurement received from the strain gauge. 7 . The electronic device as in claim 6 , wherein the strain gauge is disposed over the top surface of the deflectable beam. 8 . The electronic device as in claim 6 , further comprising at least one additional strain gauge disposed over a surface of the beam, wherein each additional strain gauge is operatively connected to the processing device. 9 . The electronic device as in claim 6 , wherein the electronic device comprises one of a remote control device, a mouse, a smart telephone, and a computer. 10 . A method for operating a force sensing switch that includes a strain gauge and a dome switch disposed over a surface of a deflectable beam, wherein the force sensing switch is disposed below an input surface in an electronic device, the method comprising: receiving a strain measurement from the strain gauge that represents an amount of strain of the deflectable beam when a deformable structure of the dome switch deforms based on a force applied to the input surface; and determining an amount of force applied to the input surface based on the strain measurement. 11 . The method as in claim 10 , wherein the deformation of the deformable structure of the dome switch actuates the dome switch. 12 . The method as in claim 10 , further comprising receiving on the input surface the force applied by the user. 13 . The method as in claim 10 , further comprising not recognizing the actuation of the dome switch such that an action is not taken based on the actuation of the dome switch. 14 . A method for determining an operating mode of a force sensing switch that includes a strain gauge disposed over a surface of a deflectable beam and a dome switch disposed over a top surface of the deflectable beam, wherein the force sensing switch is disposed below an input surface in an electronic device, the method comprising: determining whether the force sensing switch is to operate as a dome switch or as a force sensing switch; if the force sensing switch is to operate as a dome switch, determining whether the dome switch is actuated; and if the force sensing switch is to operate as a force sensing switch, determining an amount of force applied to the input surface based on a strain measurement received from the strain gauge. 15 . The method as in claim 14 , further comprising transmitting an on signal to a processing device when the dome switch is actuated. 16 . The method as in claim 14 , further comprising transmitting the determined amount of force to a processing device when the force sensing switch operates as a force sensing switch. 17 . An electronic device, comprising: a deflectable beam; a dome switch disposed over a top surface of the deflectable beam; and an electrode disposed under a bottom surface of the deflectable beam, wherein the bottom surface of the deflectable beam and the electrode form a capacitive sensing element. 18 . The electronic device as in claim 17 , further comprising a sense line connected between a sense circuit and the electrode. 19 . The electronic device as in claim 18 , further comprising a processing device connected to the sense circuit. 20 . A method for operating a force sensing switch that includes a dome switch disposed over a top surface of a deflectable beam and an electrode disposed under a bottom surface of the deflectable beam, wherein the force sensing switch is disposed below an input surface in an electronic device, the method comprising: measuring a capacitance between the bottom surface of the deflectable beam and the electrode when a deformable structure of the dome switch deforms based on a force applied to the input surface; and determining an amount of force applied to the input surface based on the measured capacitance.