Simultaneous primary and secondary radio frequency link transmissions within radio frequency exposure limits

What is claimed: 1. A method comprising: determining an unused power margin between an average transmit power of a primary radio and a transmit power limit over a prior time interval; allocating a portion of the unused power margin to a secondary radio over a current time interval; allocating a secondary reserve transmit power to the secondary radio, wherein the secondary reserve transmit power is less than the transmit power limit; restricting an average transmit power of the secondary radio over the current time interval to within a combination of the portion of the unused power margin and the secondary reserve transmit power; and restricting an average transmit power of the primary radio over the current time interval to within a combination of a primary reserve transmit power and a transmit power margin, the transmit power margin determined by reducing the unused power margin by an estimated power margin to be made available to the secondary radio of the secondary radio to maintain the secondary reserve transmit power. 2. The method of claim 1 , wherein determining an unused power margin comprises normalizing the average transmit power of the primary radio to its transmit power limit corresponding to a radio frequency exposure limit. 3. The method of claim 1 , wherein restricting the average transmit power of the secondary radio comprises restricting the average transmit power of the secondary radio to the unused power margin during the current time interval. 4. The method of claim 1 , further comprising allocating a primary reserve transmit power to the primary radio, wherein the primary reserve transmit power is less than the transmit power limit and wherein restricting the average transmit power of the primary radio comprises allowing transmit power up to the primary reserve transmit power during the current time interval, and wherein determining the unused power margin comprises determining the unused margin within the primary reserve transmit power. 5. The method of claim 4 , wherein determining the unused power margin further comprises determining the unused power margin as between the primary reserve transmit power and the transmit power limit. 6. The method of claim 1 , further comprising computing the estimated margin of the secondary radio based on the secondary reserve transmit power and the average transmit power of the secondary radio. 7. The method of claim 1 , further comprising de-allocating the secondary reserve transmit power from the secondary radio after detecting that the secondary radio is turned OFF. 8. The method of claim 1 , wherein restricting the average transmit power of the secondary radio comprises restricting a transmit power of the secondary radio to the secondary reserve transmit power. 9. The method of claim 1 , wherein restricting the average transmit power of the secondary radio comprises restricting a transmit power of the secondary radio to the secondary reserve transmit power plus the unused power margin. 10. The method of claim 1 , wherein restricting the average transmit power of the secondary radio comprises terminating transmission by the secondary radio during the current time interval after the secondary radio uses the unused power margin. 11. The method of claim 1 , wherein restricting the average transmit power of the secondary radio comprises determining an average transmit power of the secondary radio across the current time interval after detecting that the secondary radio is turned ON and determining a new average transmit power of the secondary radio after each time interval of a sequence of time intervals to include a new current time interval up to a fixed number of time intervals of a current time window. 12. The method of claim 1 , wherein determining the average transmit power of the primary radio comprises determining as an average across a time window at a sequence of time intervals, wherein the time window advances each time interval of the sequence of time intervals to include a fixed number of time intervals, and wherein the transmit power limit comprises a normalized radio frequency exposure limit using the average transmit power of the current time window. 13. A communications device, comprising: at least one antenna; a transmitter in communication with the at least one antenna; and a processor in communication with a memory, the processor configured to perform operations comprising: determining an unused power margin between an average transmit power of a primary radio and a transmit power limit over a prior time interval; allocating a portion of the unused power margin to a secondary radio over a current time interval; allocating a secondary reserve transmit power to the secondary radio, wherein the secondary reserve transmit power is less than the transmit power limit; restricting an average transmit power of the secondary radio over the current time interval to within a combination of the portion of the unused power margin and the secondary reserve transmit power; and restricting an average transmit power of the primary radio over the current time interval to within a combination of a primary reserve transmit power and a transmit power margin, the transmit power margin determined by reducing the unused power margin by an estimated power margin to be made available to the secondary radio of the secondary radio to maintain the secondary reserve transmit power. 14. The communications device of claim 13 , the operations further comprising allocating a primary reserve transmit power to the primary radio, wherein the primary reserve transmit power is less than the transmit power limit and wherein restricting the average transmit power of the primary radio comprises allowing transmit power up to the primary reserve transmit power during the current time interval, and wherein determining the unused power margin comprises determining unused margin within the primary reserve transmit power. 15. The communications device of claim 13 , the operations comprising de-allocating the secondary reserve transmit power from the secondary radio after detecting that the secondary radio is turned OFF. 16. The communications device of claim 13 , wherein restricting the average transmit power of the secondary radio comprises determining an average transmit power of the secondary radio across the current time interval of a sequence of time intervals after detecting that the secondary radio is turned ON and determining a new average transmit power of the secondary radio after each time interval of the sequence to include a new current time interval up to a fixed number of time intervals of the current time window. 17. A non-transitory computer-readable medium having instructions stored thereon, which when executed cause a processor to perform operations comprising: determining an unused power margin between an average transmit power of a primary radio and a transmit power limit over a prior time interval; allocating a portion of the unused power margin to a secondary radio over a current time interval; allocating a secondary reserve transmit power to the secondary radio, wherein the secondary reserve transmit power is less than the transmit power limit; restricting an average transmit power of the secondary radio over the current time interval to within a combination of the portion of the unused power margin and the secondary reserve transmit power; and restricting an average transmit power of the primary radio over the current time interval to within a combination of a primary reserve transmit power and a transmit pow