A novel low-voltage low-power bulk-driven cascade current mirror

A novel low-voltage low-power PMOS cascade current mirror employing the bulk-driven technique is described in this paper. Based on SMIC 0.18μm CMOS process, the characteristics of the low-voltage bulk-driven cascade current mirror are analyzed and validated, including the input/output resistance, th...

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Vydáno v:2010 3rd International Conference on Advanced Computer Theory and Engineering(ICACTE) Ročník 3; s. V3-78 - V3-83
Hlavní autoři: Li Yani, Yang Yintang, Zhu Zhangming
Médium: Konferenční příspěvek
Jazyk:angličtina
Vydáno: IEEE 01.08.2010
Témata:
bulk-driven
cascade
current mirror
Integrated circuit modeling
Logic gates
low-power
low-voltage
Manganese
Resistance
ISBN:1424465397, 9781424465392
ISSN:2154-7491
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Shrnutí:A novel low-voltage low-power PMOS cascade current mirror employing the bulk-driven technique is described in this paper. Based on SMIC 0.18μm CMOS process, the characteristics of the low-voltage bulk-driven cascade current mirror are analyzed and validated, including the input/output resistance, the system dc transmission error, the frequency characteristics and noise performance, etc. The simulation results reveal that: this bulk-driven cascade current mirror is able to reduce the input voltage drop to 0.3V, and it has the better current driving ability than the gate-driven cascade current mirror does under the same conditions, along with the same good current following characteristic as the gate-driven cascade current mirror. The bulk-driven cascade current mirror achieves the low-voltage low-power characteristic at the cost of the linearity of output current vs input voltage and frequency bandwidth, as well as noise performance. The presented low-voltage bulk-driven cascade current mirror has a good performance for low-frequency low-voltage applications in the design of CMOS analog integrated circuits.
ISBN:1424465397
9781424465392
ISSN:2154-7491
DOI:10.1109/ICACTE.2010.5579714