A CMOS bandgap reference based on switched capacitor with temperature compensation method

Abstract: A CMOS bandgap reference based on switched capacitor is proposed in this paper. Temperature compensation is adopted to achieve better temperature coefficient (TC). Two first order compensated reference voltages are combined to realize a new reference voltage with lower TC. Due to the switched capacitor operation, power and area of circuit are reduced. Simulation result shows that the bandgap reference achieves TC of 14.5 ppm/ • C from −40 • C to 120 • C. Bandgap reference output voltage is 235 mV with a ripple… Show more

“…Table 1 summarizes the performance of the proposed BGR in comparison to other reported results. Compared with [28,29,30], the proposed BGR achieves a best TC of 2.2 ppm/℃ after trimming. And it obtains a wider temperature range than [27,28,29,31].…”

“…Compared with [28,29,30], the proposed BGR achieves a best TC of 2.2 ppm/℃ after trimming. And it obtains a wider temperature range than [27,28,29,31]. Besides, it achie- ves a 0.18 %/V line regulation, which is better than [29].…”

A 2.2ppm/°C compensated bandgap voltage reference with a double-ended current trimming technique

“…Table 1 summarizes the performance of the proposed BGR in comparison to other reported results. Compared with [28,29,30], the proposed BGR achieves a best TC of 2.2 ppm/℃ after trimming. And it obtains a wider temperature range than [27,28,29,31].…”

“…Compared with [28,29,30], the proposed BGR achieves a best TC of 2.2 ppm/℃ after trimming. And it obtains a wider temperature range than [27,28,29,31]. Besides, it achie- ves a 0.18 %/V line regulation, which is better than [29].…”

A 2.2ppm/°C compensated bandgap voltage reference with a double-ended current trimming technique

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