Satellite microphone assembly

What is claimed is: 1. A satellite microphone assembly comprising: a base housing a microphone and a volume control electronics; a cap with a top surface and at least one side extending below the top surface, supported by the base and having volume based controls mounted on the top surface, the cap being configured to control the microphone of the satellite microphone assembly when a user moves the cap relative to the base; and an optical sensor supported by the base, the optical sensor configured to detect movement of the cap, output information about a direction of the movement of the cap to the volume control electronics, and cause the movement of the cap to affect a volume of a speaker communicatively coupled to the satellite microphone assembly. 2. The satellite microphone assembly of claim 1 , further comprising: mechanical detents arranged to interface with the cap and to produce a tactile feedback when the cap is moved relative to the base. 3. The satellite microphone assembly of claim 1 , further comprising: a haptic actuator configured to receive an output of the optical sensor and configured to produce a tactile feedback when the cap is moved relative to the base via vibration. 4. The satellite microphone assembly of claim 1 , wherein, the top surface of the cap is touch sensitive, and a received touch activates an actuatable button to toggle mute/unmute of the microphone. 5. The satellite microphone assembly of claim 1 , wherein, the top surface of the cap is a physical button assembly operable to control the microphone when actuated. 6. The satellite microphone assembly of claim 1 , further comprising: an accelerometer supported by the base and configured to provide an output to the volume control electronics. 7. The satellite microphone assembly of claim 6 , wherein, the accelerometer is configured to detect a resting state of the satellite microphone assembly and to enable the volume control electronics. 8. The satellite microphone assembly of claim 6 , wherein, the accelerometer is configured to detect a movement state of the satellite microphone assembly and to disable the volume control electronics. 9. A satellite microphone comprising: a base supporting a microphone; a cap with a top surface and at least one side extending below the top surface, attached to the base and having volume based controls mounted on the top surface, the cap being moveable relative to the base; a movement detector attached to the base, configured to detect movement of the cap relative to the base, and affect volume of a speaker of a speaker phone separate from the satellite microphone based on the movement; and the volume based controls including a mute actuator configured to receive an input to mute/unmute the microphone. 10. The satellite microphone of claim 9 , further comprising: a plurality of mechanical members arranged to interface with the cap and to produce a tactile feedback when the cap is moved relative to the base. 11. The satellite microphone of claim 9 , further comprising: a haptic actuator configured to receive an output of the movement detector, and configured to produce a tactile-vibration feedback when the cap is moved relative to the base. 12. The satellite microphone of claim 9 , wherein, the mute actuator is touch sensitive to receive a user input to mute/unmute the microphone. 13. The satellite microphone of claim 9 , wherein, the mute actuator is a physical button assembly to receive a user input to mute/unmute the microphone. 14. The satellite microphone of claim 9 , wherein, the mute actuator has a surface area equal to a surface area of the top surface of the cap. 15. The satellite microphone of claim 9 , further comprising: an accelerometer supported by the base and configured to provide an output to the microphone. 16. The satellite microphone of claim 15 , wherein, the accelerometer is configured to detect a resting state of the satellite microphone, and to enable the microphone. 17. The satellite microphone of claim 15 , wherein, the accelerometer is configured to detect a movement state of the satellite microphone and to disable the microphone. 18. A method to control a satellite phone assembly, the method comprising: moving a cap relative to a base of the satellite phone assembly, wherein, the base houses a microphone, a volume control electronics, and an optical sensor, the cap with a top surface and at least one side extending below the top surface, supported by the base, and having volume based controls mounted on the top surface, the cap being configured to control the microphone when a user moves the cap relative to the base, and the optical sensor is supported by the base, configured to detect movement of the cap, output information about a direction of the movement of the cap to the volume control electronics, and cause the movement of the cap to affect a volume of a speaker communicatively coupled to the satellite phone assembly. 19. The method of claim 18 , wherein, the movement is operable to generate tactile feedback via (i) mechanical detents arranged to interface with the cap, or (ii) a haptic actuator configured to receive an output of the optical sensor and vibrate. 20. The method of claim 18 , wherein, the top surface of the cap is (i) touch sensitive and operable to control the microphone when touched, or (ii) a physical button assembly operable to control the microphone when actuated.