Traveling wave mixer, sampler, and synthetic sampler

The invention claimed is: 1. An electronic device, comprising: an input transmission line configured to receive an input signal; an output transmission line configured to transmit an output signal produced according to the input signal, the output signal comprising a combination of a mixed high band signal and an amplified low band signal wherein the mixed high band signal is produced by the plurality of amplification and mixing stages, and the amplified low band signal is produced by the plurality of amplification stages; a local oscillator transmission line configured to transmit a local oscillator signal; a plurality of amplification and mixing stages arranged in parallel between the input and output transmission lines and each configured to amplify a received portion of the input signal and mix the amplified portion of the input signal with the local oscillator signal to produce a portion of the output signal; and a plurality of amplification stages arranged in parallel between the input and output transmission lines and each configured to amplify a received portion of the input signal to produce a portion of the output signal, wherein the plurality of amplification stages are located proximate an output side of the electronic device that transmits the output signal, and the plurality of amplification and mixing stages are located proximate an input side of the electronic device that receives the input signal. 2. The electronic device of claim 1 , wherein each of the amplification and mixing stages comprises a transconductance amplifier arranged in series with a Gilbert mixer. 3. The electronic device of claim 2 , wherein each of the amplification stages comprises a transconductance amplifier. 4. The electronic device of claim 1 , further comprising: one or more first transmission line elements each disposed along the input transmission line between a corresponding pair of the amplification and mixing stages; one or more second transmission line elements each disposed along the output transmission line between a corresponding pair of the amplification and mixing stages; and one or more third transmission line elements each disposed along the local oscillator transmission line between a corresponding pair of the amplification and mixing stages. 5. The electronic device of claim 4 , wherein each of the first through third transmission line elements comprises a circuit trace. 6. The electronic device of claim 4 , further comprising one or more first transmission line elements each disposed along the input transmission line between a corresponding pair of the amplification stages; and one or more second transmission line elements each disposed along the second transmission line between a corresponding pair of the amplification stages. 7. The electronic device of claim 1 , wherein the electronic device performs synthetic sampling on the input signal to produce the output signal. 8. The electronic device of claim 1 , wherein the input transmission line is connected between an input terminal and ground, and the second transmission line is connected between an output terminal and ground. 9. A communication system comprising the electronic device of claim 1 . 10. A test instrument comprising the electronic device of claim 1 . 11. An electronic device, comprising: an input transmission line configured to receive an input signal; an output transmission line configured to transmit an output signal produced according to the input signal; a sample clock transmission line configured to transmit a sample clock signal; and a plurality of amplification and sampling stages arranged in parallel between the input and output transmission lines and each configured to amplify a received portion of the input signal and sample the amplified portion of the input signal using the sample clock signal to produce a portion of the output signal; and an additional output transmission line configured to transmit an additional output signal produced according to the input signal, wherein the output signal corresponds to even samples of the input signal and the additional output signal corresponds to odd samples of the input signal. 12. The electronic device of claim 11 , wherein each of the amplification and sampling stages comprises a transconductance amplifier arranged in series with a sampler. 13. The electronic device of claim 12 , wherein the sampler comprises first and second pairs of emitter-connected bipolar-junction transistors (BJTs), wherein the first pair of emitter-connected BJTs has collectors outputting an odd sample of the input signal, and the second pair of emitter-connected BJTs has collectors outputting an even sample of the input signal. 14. The electronic device of claim 11 , wherein the plurality of amplification and sampling stages are configured to perform sampling at a rate of at least 100 GHz. 15. The electronic device of claim 11 , wherein each of the amplification and sampling stages comprises a plurality of transistors formed on silicon germanium (SiGe) or indium phosphide (InP). 16. The electronic device of claim 11 , wherein the respective portions of the output signal are summed in phase on the output transmission line to produce the output signal. 17. An electronic device, comprising: an input transmission line configured to receive an input signal; an output transmission line configured to transmit an output signal produced according to the input signal; a local oscillator transmission line configured to transmit a local oscillator signal; a plurality of amplification and mixing stages arranged in parallel between the input and output transmission lines and each configured to amplify a received portion of the input signal and mix the amplified portion of the input signal with the local oscillator signal to produce a portion of the output signal; a plurality of amplification stages arranged in parallel between the input and output transmission lines and each configured to amplify a received portion of the input signal to produce a portion of the output signal, wherein the plurality of amplification stages are located proximate an output side of the electronic device that transmits the output signal, and the plurality of amplification and mixing stages are located proximate an input side of the electronic device that receives the input signal; an additional output transmission line configured to transmit an additional output signal produced according to the input signal, wherein the output signal corresponds to even samples of a synthetic sampler and the additional output signal corresponds to odd samples of a synthetic sampler; an additional plurality of amplification and mixing stages arranged in parallel between the input transmission line and the additional output transmission line and each configured to amplify a received portion of the input signal and mix the amplified portion of the input signal with the local oscillator signal to produce a portion of the additional output signal; and an additional plurality of amplification stages arranged in parallel between the input transmission line and the additional output transmission line and each configured to amplify a received portion of the input signal to produce a portion of the additional output signal, wherein the additional plurality of amplification stages are located proximate the output side of the electronic device that transmits the output signal, and the additional plurality of amplification and mixing stages are located proximate the input side of the electronic device that receives the input