Pablo Castro-Lisboa scite author profile

SUMMARYThis paper shows that an important part of the power consumption of a biquad band-pass filter is associated with the feedback loop that fixes the high-pass frequency and blocks the direct current (dc) input signals. The dc input amplitude that can be blocked is related to the maximum output current that one of the transconductors can provide, hence impacting on the required consumption through this effect. Then, a technique that efficiently blocks the dc input signal and fixes the high-pass frequency is introduced and analyzed in depth. Moreover, an architecture for ultra-low-power differential-input biquads is fully presented. The proposed architecture enables lowering the power consumption or blocking higher levels of dc input without jeopardizing the power consumption. Results show that the proposed architecture, compared with a traditional one, presents a 30% reduction in power consumption and more than doubles the dc input that can be blocked.

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Gate drive losses reduction in switched-capacitor DC-DC converters

Veirano

Pérez-Nicoli

Castro-Lisboa

et al. 2018

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Pablo Castro-Lisboa

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Relaxing the maximum dc input amplitude vs. consumption trade‐off in differential‐input band‐pass biquad filters

Gate drive losses reduction in switched-capacitor DC-DC converters

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