Wireless cellular telephone with audio codec

What is claimed is: 1. A wireless cellular telephone comprising: an audio codec; a first digital audio bus coupled to the audio codec for carrying first digital audio signals between the audio codec and a first circuit, the first digital audio bus having a first data line; a second digital audio bus coupled to the audio codec for carrying second digital audio signals between the audio codec and a second circuit, the second digital audio bus having a second data line; and a third digital audio bus coupled to the audio codec for carrying third digital audio signals between the audio codec and a third circuit, the third digital audio bus having a third data line, wherein the first and third digital audio buses share a clock line, the first data line not being shared with either of the second and third digital audio buses, the second data line not being shared with either of the first and third digital audio buses, the third data line not being shared with either of the first and second digital audio buses, and the audio codec comprising a digital signal mixer operable to mix a digital audio signal received over the first digital audio bus with a digital audio signal received over the second digital audio bus and output the resulting mixed digital audio signal over one of the first, second and third digital audio buses. 2. A wireless cellular telephone according to claim 1 wherein the digital signal mixer is operable to output said resulting mixed digital audio signal over the third digital audio bus. 3. A wireless cellular telephone according to claim 1 wherein the second digital audio bus is operable to carry (i) a first one of said second digital audio signals from the second circuit to the audio codec, (ii) a second one of said second digital audio signals from the second circuit to the audio codec, and (iii) a third one of said second digital audio signals from the audio codec to the second circuit wherein digital audio data of the first and second ones of said second digital audio signals are carried in respective time-divided slots of a time division multiplex scheme. 4. A wireless cellular telephone according to claim 3 wherein the audio codec is operable to receive the first one of said second digital audio signals over the second digital audio bus from the second circuit and transmit it as one of said first digital audio signals over the first digital audio bus to the first circuit while receiving the second one of said second digital audio signals over the second digital audio bus from the second circuit and transmitting it as one of said third digital audio signals over the third digital audio bus to the third circuit. 5. A wireless cellular telephone according to claim 1 wherein the second digital audio bus is operable to carry (i) a first one of said second digital audio signals to the second circuit from the audio codec, (ii) a second one of said second digital audio signals to the second circuit from the audio codec, and (iii) a third one of said second digital audio signals to the audio codec from the second circuit wherein digital audio data of the first and second ones of said second digital audio signals are carried in respective time-divided slots of a time division multiplex scheme. 6. A wireless cellular telephone according to claim 5 wherein the audio codec is operable to receive one of said first digital audio signals over the first digital audio bus from the first circuit and transmit it as the first one of said second digital audio signals over the second digital audio bus to the second circuit while receiving one of said third digital audio signals over the third digital audio bus from the third circuit and transmitting it as the second one of said second digital audio signals over the second digital audio bus to the second circuit. 7. A method of operating a wireless cellular telephone, said wireless cellular telephone comprising an audio codec for converting digital audio signals to analog audio signals; wherein said method comprises: carrying first digital audio signals between the audio codec and a first circuit on a first digital audio bus coupled to the audio codec, the first digital audio bus having a first data line; carrying second digital audio signals between the audio codec and a second circuit on a second digital audio bus coupled to the audio codec, the second digital audio bus having a second data line; carrying third digital audio signals between the audio codec and a third circuit on a third digital audio bus coupled to the audio codec, the third digital audio bus having a third data line, and carrying digital audio signals on the first and third digital audio buses synchronously using a common clock signal, the first data line not being shared with either of the second and third digital audio buses, the second data line not being shared with either of the first and third digital audio buses, the third data line not being shared with either of the first and second digital audio buses, and wherein the method further comprises: transmitting a first digital audio signal from the first circuit to the audio codec over the first digital audio bus; transmitting a second digital audio signal from the second circuit to the audio codec over the second digital audio bus; mixing the first and second digital audio signals digitally in the audio codec; and outputting the resulting mixed digital audio signal over one of the first, second and third digital audio buses. 8. A method according to claim 7 comprising: outputting said resulting mixed digital audio signal to the third circuit over the third digital audio bus. 9. A method according to claim 7 comprising carrying on the second digital audio bus (i) a first one of said second digital audio signals from the second circuit to the audio codec, (ii) a second one of said second digital audio signals from the second circuit to the audio codec, and (iii) a third one of said second digital audio signals from the audio codec to the second circuit, wherein the first and second ones of said second digital audio signals are carried on the second digital audio bus in respective time-divided slots of a time division multiplex scheme. 10. A method according to claim 9 comprising transmitting the first one of said second digital audio signals from the audio codec to the first circuit over the first digital audio bus as one of said first digital audio signals while transmitting the second one of said second digital audio signals from the audio codec to the third circuit over the third digital audio bus as one of said third digital audio signals. 11. A method according to claim 7 comprising carrying on the second digital audio bus (i) a first one of said second digital audio signals to the second circuit from the audio codec, (ii) a second one of said second digital audio signals to the second circuit from the audio codec, and (iii) a third one of said second digital audio signals to the audio codec from the second circuit, wherein the first and second ones of said second digital audio signals are carried on the second digital audio bus in respective time-divided slots of a time division multiplex scheme. 12. A method according to claim 11 comprising transmitting the first one of said second digital audio signals to the audio codec from the first circuit over the first digital audio bus as one of said first digital audio signals while transmitting the second one of said second digital audio signals to the audio codec from the third circuit over the third digital audio bus as one of said third digital audio signals. 13. A wireless cellular telephone comprising: an audio