Audio capture with multiple microphones

What is claimed is: 1. An apparatus comprising: at least three microphones suitably located in the apparatus so that each of the at least three microphones is configured to be used with the other ones of the microphones in at least two different apparatus modes, the at least two apparatus modes comprising a voice phone call mode and a multi-media mode; at least one processor; and at least one non-transitory memory including computer program code, the at least one memory and the computer program code configured to, with the at least one processor, cause the apparatus at least to: determine that the apparatus is in at least one of the voice phone call mode and the multi-media mode; in response to determining that the apparatus is in the voice phone call mode: select at least three of the microphones to use in the voice phone call mode; determine a use for each of the selected at least three microphones such that: at least one first microphone of the selected at least three microphones is used for primary speech by outputting at least one signal to the at least one processor as a primary speech signal, and at least one second microphone of the selected at least three microphones is used for noise reduction by outputting at least one signal as a noise reduction signal to the at least one processor; and in response to determining that the apparatus is in the multi-media mode select the same at least three microphones to each output at least one signal to the at least one processor for sound capture, and determine a use for each of the selected at least three microphones for the multi-media mode based at least on a type of sound capture feature being used by the apparatus, where the apparatus comprises a plurality of different types of sound capture features based on the determined mode. 2. The apparatus as in claim 1 , wherein the voice phone call mode of the apparatus is a hand portable call mode, and the apparatus is configured to select: a front bottom microphone, a rear bottom microphone and a rear top microphone as the selected at least three microphones. 3. The apparatus as in claim 1 , wherein the voice phone call mode of the apparatus is an integrated handsfree call mode, and wherein selection of the at least three microphones is based at least partially upon a determined use of the apparatus being either a handheld handsfree use or a desktop handsfree use. 4. The apparatus as in claim 3 , where when the determined use of the apparatus is either the desktop handsfree use or the handheld handsfree use, the selected at least three microphones comprise: a front bottom microphone, a rear bottom, and a rear top microphone. 5. The apparatus as in claim 3 , the apparatus comprising at least four suitably located microphones, and where when the determined use of the apparatus is either the desktop handsfree use or the handheld handsfree use, the apparatus is configured to select at least one of the following groups of microphones as the at least one second microphone of the selected at least three microphones: a front top microphone, a rear top microphone and a front bottom microphone, a front bottom microphone, a rear bottom microphone and a front top microphone, and; a front bottom microphone, a rear bottom microphone and a rear top microphone. 6. The apparatus as in claim 1 , wherein determining the use for each of the selected at least three microphones for the determined mode is based at least upon a determined orientation of the apparatus. 7. The apparatus as in claim 1 , where the different types of sound capture features comprise two or more of: mono audio capture, mono zoom audio capture, stereo capture, directed stereo capture, surround capture and wind noise reduction. 8. The apparatus as in claim 7 , where when the type of sound capture feature being used is mono audio capture, the apparatus is configured to use a rear top microphone, when the determined type of sound capture feature is mono zoom audio capture, and when a determined orientation of the apparatus is a portrait orientation, the apparatus is configured to use the rear top microphone and a front top microphone, or a rear bottom microphone and a front bottom microphone, and when the determined type of sound capture feature is mono zoom audio capture, and when the determined orientation is a landscape orientation, the apparatus is configured to use the rear top microphone and the front top microphone, and/or the rear bottom microphone and the front bottom microphone. 9. The apparatus as in claim 7 where, when the type of sound capture feature being used is stereo capture, and when a determined orientation of the apparatus is a landscape orientation, the apparatus is configured to use the rear top microphone and the rear bottom microphone. 10. The apparatus as in claim 9 , where the apparatus comprises at least four suitably located microphones, and where when the type of sound capture feature being used is directional stereo capture, and when the determined orientation is the landscape orientation, the apparatus is configured to use the rear top microphone, the front top microphone, the rear bottom microphone and the front bottom microphone. 11. The apparatus as in claim 7 , where when the determined type of sound capture feature is surround capture, and when a determined orientation of the apparatus is a landscape orientation, the apparatus is configured to select: a rear top microphone, a front top microphone and a rear bottom microphone as the selected at least three microphones, and/or the rear top microphone, the rear bottom microphone and a front bottom microphone as the selected at least three microphones. 12. The apparatus as in claim 7 , where when the determined type of sound capture feature is wind noise reduction, and when a determined orientation of the apparatus is a landscape orientation, the apparatus is configured to switch the use of one or more of the selected at least three microphones based upon wind noise. 13. The apparatus as in claim 1 , further comprising: a housing; at least one printed circuit board in the housing, where the at least one printed circuit board comprises the at least one processor and the at least one memory; at least one transmitter and at least one receiver connected to the at least one printed circuit board; an electronic display connected to the housing; and a battery connected to the at least one printed circuit board. 14. The apparatus as in claim 1 , wherein a third microphone of the selected at least three microphones is used to form a beam with the primary speech signal. 15. The apparatus as in claim 14 , wherein: when the apparatus is in the hand portable call mode the beam formed with the primary speech signal is a fixed beam; and when the apparatus is in the integrated handsfree call mode, the beam formed with the primary speech signal is a moving beam. 16. A method comprising: determining an apparatus is in at least one of a voice phone call mode and a multi-media mode, wherein the apparatus comprises at least three microphones suitably located in the apparatus so that each of the at least three microphones is configured to be used with the other ones of the microphones in at least two different apparatus modes; in response to determining that the apparatus is in the voice phone call mode: selecting at least three of the microphones to be used in the voice phone call mode; determining a use for each of the selected at least three microphones such that: at least one first microphone of the selected at least three microphones is used for