Multi-band observation receiver

What is claimed is: 1. An arrangement for a pre-distortion-compensated transmitter for a communication system, comprising: an electronic processor circuit configured for converting a base-band signal to be transmitted to a spectrally shifted, pre-distorted signal to be transmitted based on at least one compensation signal; a power amplifier configured for generating an amplified version of the spectrally shifted, pre-distorted signal to be transmitted, wherein the amplified version is in one frequency range of a plurality of frequency ranges used in the communication system; a coupler configured for generating a sample signal from the amplified version; and a transmitter observation receiver (TOR) configured for receiving the sample signal and generating at least one compensation signal based on the sample signal, wherein the at least one compensation signal is generated such that a signal to be transmitted that is within a bandwidth that simultaneously encompasses multiple frequency ranges is compensated, and the electronic processor circuit converts the base-band signal to be transmitted such that a relationship between the base-band signal to be transmitted and the sample signal is substantially linear with constant phase, wherein the TOR includes a common wideband analog-to-digital converter (ADC) configured for converting the sample signal into a digital sample signal, and a plurality of digital down-converters configured for generating the at least one compensation signal, wherein each of the plurality of digital down-converters is coupled to the common wideband ADC, and optimized for a respective frequency range in the plurality of frequency ranges. 2. The arrangement of claim 1 , wherein each of the multiple frequency ranges correspond to a respective one of a plurality of communication bands. 3. The arrangement of claim 1 , wherein the TOR is configured for tuning to different frequency ranges in the bandwidth by selectively adjusting at least one tuning component of the TOR. 4. A method of pre-distortion-compensating a signal to be transmitted for a communication system, comprising: converting a base-band signal to be transmitted to a spectrally shifted, pre-distorted signal to be transmitted based on at least one compensation signal; generating an amplified version of the spectrally shifted, pre-distorted signal to be transmitted, wherein the amplified version is in one communication band of a plurality of communication bands used in the communication system; generating a sample signal from the amplified version; and generating the at least one compensation signal based on the sample signal such that a signal to be transmitted that is within a bandwidth that simultaneously encompasses multiple frequency ranges is compensated, wherein the at least one compensation signal is generated by converting, by a common wideband (ADC), the sample signal into a digital sample signal, and separately generating, by a plurality of digital down-converters coupled to the common wideband ADC, separate components of the at least one compensation signal for a respective frequency range in the multiple frequency ranges using the digital sample signal, wherein the base-band signal is converted such that a relationship between the base-band signal to be transmitted and the sample signal is substantially linear with constant phase. 5. The method of claim 4 , wherein each of the multiple frequency ranges corresponds to a respective one of a plurality of communication bands. 6. The method of claim 4 , wherein generating the at least one compensation signal includes tuning to different frequency ranges in the bandwidth by selecting at least one tuning component.