Method and device for optimizing mobile radio transmitter/receiver having antenna

The invention claimed is: 1. A method, comprising: determining to transmit a radio broadcast transmission that carries audio data, using a radio transmitter circuit connected to a corresponding antenna of a mobile electronic device; detecting a change in transmission conditions; determining to adjust impedance matching between said antenna and said radio transmitter circuit, in response to the detecting a change in transmission conditions, to be in compliance with broadcast power level legislative regulations at a current regional position of the mobile electronic device; detecting an occurrence of one or more passages in said audio data, which have local volume minimums, in said radio broadcast transmission; placing operations for the adjustment of the impedance matching so that they occur during said local volume minimums of said passages, in response to said detecting said local volume minimums of said passages in said audio data carried in the radio transmission; and adjusting, during said occurrence of said one or more passages in said audio data, which have local volume minimums in said radio broadcast transmission, impedance matching between said antenna and said radio transmitter circuit to be in compliance with said broadcast power level legislative regulations at the current regional position of the mobile electronic device, in response to said detecting said local volume minimums of said passages in said audio data carried in the radio transmission, whereby interruption or distortion of the audio transmission caused by said adjusting, is less likely noticed. 2. The method according to claim 1 , further comprising measuring a voltage swing at said antenna. 3. The method according to claim 1 , further comprising: determining a broadcast power radiated by said antenna to be noncompliant with one or more broadcast power level legislative regulations; and adjusting the broadcast power radiated by said antenna to be in compliance with said broadcast power level legislative regulations. 4. The method according to claim 3 , wherein said broadcast power adjusting is repeated in pre-determined, random or pseudo-random intervals. 5. The method according to claim 1 , further comprising at least one of: measuring the power radiated by said antenna at said mobile electronic device; detecting if said measured radiated power exceeds a pre-determined upper limit; decreasing the transmission power if said measured radiated power exceeds said pre-determined upper limit; detecting if said measured radiated power falls below a pre-determined lower limit; increasing the transmission power if said measured radiated power falls below said pre-determined lower limit; and increasing the transmission power if the radiated power has not exceeded said upper limit for a pre-determined time span. 6. The method according to claim 5 , wherein said upper and/or said lower pre-determined limit are selected based on at least one of: positioning data; cellular network connection data; time-zone setting; language setting; country settings; and Mobile Country Code, MCC; of said mobile electronic device. 7. An apparatus, comprising: a radio transmitter circuit; an antenna connected to said radio transmitter circuit; and a controller configured to determine to transmit a radio broadcast transmission that carries audio data, using said radio transmitter circuit, configured to detect a change in transmission conditions, configured to determine to adjust impedance matching between said antenna and said radio transmitter circuit, in response to the detecting a change in transmission conditions, to be in compliance with broadcast power level legislative regulations at a current regional position of the apparatus, configured to detect an occurrence of one or more passages in said audio data, which have local volume minimums, in said radio broadcast transmission, configured to place operations for the adjustment of the impedance matching so that they occur during said local volume minimums of said passages, in response to said detecting said local volume minimums of said passages in said audio data carried in the radio transmission, and configured to adjust, during said occurrence of said one or more passages in said audio data, which have local volume minimums in said radio broadcast transmission, impedance matching between said antenna and said radio transmitter circuit to be in compliance with said broadcast power level legislative regulations at the current regional position of the apparatus, in response to said detecting said local volume minimums of said passages in said audio data carried in the radio transmission, whereby interruption or distortion of the audio transmission caused by said adjusting, is less likely noticed. 8. The apparatus according to claim 7 , wherein said controller is configured to determine a broadcast power radiated by said antenna to be noncompliant with one or more broadcast power level legislative regulations, and configured to adjust the broadcast power radiated by said antenna to be in compliance with said broadcast power level legislative regulations. 9. The apparatus according to claim 8 , wherein said controller is configured to detect if said radiated power exceeds a pre-determined upper limit or falls below a pre-determined lower limit in pre-determined intervals or continuously. 10. The apparatus according to claim 7 , wherein said controller is configured to measure the voltage swing at said antenna. 11. The apparatus according to claim 7 , wherein said controller is configured to detect if an accessory device is connected to said mobile electronic device. 12. The apparatus according to claim 7 , further comprising: a signal detector configured to measure the power radiated by said antenna; wherein said controller is configured to detect if said radiated power exceeds a pre-determined upper limit. 13. The apparatus according to claim 12 , wherein said controller is configured to adjust the power radiated by said antenna by decreasing the transmission power if said measured radiated power exceeds said pre-determined upper limit. 14. The apparatus according to claim 7 , wherein said controller is configured to detect if said radiated power falls below a pre-determined lower limit and configured to adjust the power radiated by said antenna by increasing the transmission power if said measured radiated power falls below said pre-determined lower limit. 15. The apparatus according to claim 7 , wherein said controller is configured to increase the transmission power if the radiated power has not exceeded an upper limit for a pre-determined time span. 16. The apparatus according to claim 7 , wherein said controller is configured to select a pre-determined upper limit and/or a pre-determined lower limit based on at least one of: positioning data; cellular network connection data; time-zone setting; language setting; country settings; and Mobile Country Code, MCC; of said apparatus. 17. A method, comprising: receiving a radio transmission that carries audio data, using a radio receiver circuit connected to a corresponding antenna of a mobile electronic device; detecting a change in transmission conditions; determining to adjust impedance matching between said antenna and said radio receiver circuit, in response to the detecting a change in transmission conditions, to be in compliance with broadcast power level legislative regulations at a current regional position of the mobile electronic device; detecting an occurrence of one or more