Wireless radio system optimization by persistent spectrum analysis

What is claimed is: 1. A method for controlling reception of a wireless broadband radio by selecting between a plurality of intermediate frequencies (IFs), the method comprising: receiving, by a first receiver, data via a radio frequency (RF) signal having a frequency fsg, wherein the receiving comprises setting a mixer to a first intermediate frequency fIF1; determining, solely by a second receiver: a first interference in the RF signal based on the first intermediate frequency fIF1, wherein determining the first interference includes determining a first error rate associated with the first intermediate frequency fIF1; and a second interference in the RF signal based on a second intermediate frequency fIF2, wherein determining the second interference includes determining a second error rate associated with the second intermediate frequency fIF2; and switching an IF of the mixer to the second intermediate frequency fIF2 if the first interference in the RF signal at a first predetermined frequency exceeds a first threshold level, wherein the second receiver is separate from the first receiver and the first intermediate frequency fIF1 is within 250 MHz of the second intermediate frequency fIF2. 2. The method of claim 1 , wherein the first threshold level is a level of the second interference. 3. The method of claim 2 , further comprising: switching the mixer back to the first intermediate frequency fIF1 when the second interference in the RF signal exceeds a second threshold level, wherein the second threshold level is a level of the first interference. 4. The method of claim 1 , wherein the first predetermined frequency is one-half of the first intermediate frequency fIF1. 5. The method of claim 1 , further comprising: switching the mixer to the second intermediate frequency fIF2 if the first error rate exceeds the second error rate. 6. The method of claim 1 , wherein switching the IF of the mixer comprises adjusting a local oscillator output frequency fLO. 7. The method of claim 1 , wherein the first interference is associated with a frequency halfway between a first local oscillator frequency and a desired receive frequency and the second interference is associated with a frequency halfway between a second local oscillator frequency and the desired receive frequency. 8. The method of claim 1 , wherein the first interference is associated with a frequency determined by the difference between a desired receive frequency and one-half of the first intermediate frequency. 9. A wireless broadband radio apparatus adapted to select between a plurality of intermediate frequencies to minimize interference, the apparatus comprising: an antenna; a first receiver coupled to the antenna and configured to receive data via a radio frequency (RF) signal having a frequency fsg, and set a mixer to a first intermediate frequency fIF1; a second receiver configured to: determine a first interference in the RF signal based on the first intermediate frequency fIF1, wherein the first interference includes a first error rate associated with the first intermediate frequency fIF1; determine a second interference in the RF signal based on a second intermediate frequency fIF2, wherein the second interference includes a second error rate associated with the second intermediate frequency fIF2; and switch an IF of the mixer in the first receiver to the second intermediate frequency fIF2 if the first interference in the RF signal at a first predetermined frequency exceeds a first threshold level, wherein the first receiver is separate from the first receiver, determining the first and second interference is performed solely by the second receiver and the first intermediate frequency fIF1 is within 250 MHz of the second intermediate frequency fIF2. 10. The apparatus of claim 9 , wherein the first threshold level is a level of the second interference. 11. The apparatus of claim 10 , wherein the second receiver is further configured to switch the mixer in the first receiver back to the first intermediate frequency fIF1 when the second interference in the RF signal exceeds a second threshold level and the second threshold level is a level of the first interference. 12. The apparatus of claim 9 , wherein the first predetermined frequency is one-half of the first intermediate frequency fIF1. 13. The apparatus of claim 9 , wherein the second receiver is further configured to switch the mixer to the second intermediate frequency fIF2 if the first error rate exceeds the second error rate. 14. The apparatus of claim 9 , wherein the second receiver is further configured adjust a local oscillator output frequency f LO to switch the IF of the mixer in the first receiver. 15. The apparatus of claim 9 , wherein the first receiver and the second receiver are configured to operate concurrently. 16. A method for controlling reception of a wireless broadband radio, the method comprising: receiving, by a first receiver, data via a radio frequency (RF) signal; mixing, by a second receiver, the RF signal with a first local oscillator signal to generate a first intermediate frequency (IF) signal fIF1; determining, solely by the second receiver, whether a second interference in the RF signal based on a second IF signal fIF2 exceeds a first interference in the RF signal based on the first IF signal fIF1; and mixing the RF signal with a second local oscillator signal when the second interference in the RF signal exceeds the first interference in the RF signal by a first threshold level, wherein the first interference includes a first error rate associated with the first IF signal and the second interference includes a second error rate associated with the second IF signal, and wherein the second receiver is separate from the first receiver and the first intermediate frequency fIF1 is within 250 MHz of the second intermediate frequency fIF2. 17. The method of claim 16 , wherein the first threshold level is a level of the second interference. 18. The method of claim 16 , wherein the first interference is one-half of the first IF signal fIF1 and the second interference is one-half of the second IF signal fIF2.