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A fully differential (FD) voltage buffer suited to low-voltage operation and able to operate over a wide voltage range is presented. The buffer core is based on a FD difference amplifier including bulk-driven MOS transistors as input devices. The common-mode (CM) component of the buffer output voltage is controlled by means of a bulk-driven CM feedback (CMFB) network that features an extended operating...
An OTA-C filter implementation suited to low-voltage operation is presented. An operational transconductance amplifier (OTA) based on a bulk-driven input stage with enhanced DC gain and bandwidth was designed and included in a 1.2-V tunable fully differential second-order OTA-C lowpass filter. Experimental results, obtained in standard 0.35-µm CMOS technology, showed a dynamic range around 70 dB with...
The increase of the electronic equipment in the automotive market has been very important in the last years. There are amount of Electronic Control Units (ECUs) and a reliable and real-time communication between them is essential. The use of industrial communication networks or fieldbuses becomes necessary. Thus, it is important to train professionals with knowledge in the fieldbuses that are used...
This brief introduces four different structures for implementing a continuous-time common-mode feedback (CMFB) network for fully differential (FD) amplifiers. The proposed circuits use bulk-driven MOS transistors, thus representing a low-voltage realization of their gate-driven counterparts. The CMFB circuits were included in a 1.5-V FD buffer implemented in standard 0.35-μm CMOS technology. Experimental...
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