Söll C, Bänisch A, Röber J, Shi L, Weigel R (2015)
Publication Type: Conference contribution
Publication year: 2015
Pages Range: 220-223
Event location: Glasgow
DOI: 10.1109/PRIME.2015.7251374
This paper presents a new reference system with emphasis on low power design and high power supply rejection. The untrimmed reference provides a 600mV output voltage, which only differs by 5.75mV in the temperature range between -40 ◦ C and +125 ◦ C and a PSRR of -157.2 dB at 10Hz. The core part of the reference produces a reference potential of 416.1mV with a deviation of only 1.59mV. Moreover, the circuit provides a 900mV output, a temperature independent 3 μA current and trimming possibilities for the temperature curves and the amplitude of output voltages and currents. Under all operating conditions, the post-layout Corner- and Monte-Carlo-Simulations show a power consumption of less than 40 μA and ensure functionality across process, supply voltage and temperature variations.
APA:
Söll, C., Bänisch, A., Röber, J., Shi, L., & Weigel, R. (2015). A Multi-Functional Reconfigurable Low-Power Ultra-High PSRR CMOS Reference-System. In Proceedings of the IEEE Conference on PhD Research in Microelectronics and Electronics (PRIME) (pp. 220-223). Glasgow.
MLA:
Söll, Christopher, et al. "A Multi-Functional Reconfigurable Low-Power Ultra-High PSRR CMOS Reference-System." Proceedings of the IEEE Conference on PhD Research in Microelectronics and Electronics (PRIME), Glasgow 2015. 220-223.
BibTeX: Download