Executive Summary : | The trend in wireless receiver architectures is to move the analog-to-digital converter
(ADC) towards the antenna, thus relaxing the requirements placed on analog circuits at
the expense of a more complex digital circuitry. This also allows more digital integration of
analog functions on a single chip resulting in a cheaper system. In these architectures,
currently, surface acoustic wave (SAW)-less receiver schemes are preferred due to their
compatibility with multiple standards and programmability. However, these architectures
are prone to performance degradation caused by interference signals like out of band
blockers. Indeed, to suppress those interference signals, conventional solutions use a
bulky, off-chip, high Q, SAW filter which increases system cost, area and complexity. State
of the art SAW-less receiver architectures mitigate the interference problems in the RF
front-end like Low Noise Amplifier and Mixers. However in presence strong interferences
receiver system requires additional stringent filter before ADC. Interferences can also be
rejected in baseband using built-in low-pass filter for a base band receiver architecture.
However zero-IF architecture suffers from DC offset and 1/f noise. These issues can
mitigates by using low-IF architectures, which requires band-pass Sigma Delta
Modulators to digitize the signal at IF. Sigma delta converters have many advantages that
make it the best candidate for receiver applications. They give rise to high performance
without requiring to use precision components; moreover, since the processing is
dominated by the digital part, the entire architecture consumes relatively lower power.
Sigma-Delta modulator achieves better performance due to noise shaping and
oversampling. Significant efforts were made in the last few years to obtain low power,
higher bandwidth ADC. The architecture requires an additional band-pass filter to remove
interference and digital conversion can be implemented by band-pass modulators.
However interference is a concern in the state of art modulators, hence embedded filter
based modulator is need of the time. The Proposed topology in this project eliminates
need of the stringent Filter, which can embedded into the band-pass Sigma Delta
Modulator with negligible additional power dissipation and improved performance. |