A novel bootstrapped CMOS latched driver is presented which improves the switching speed by boosting internal nodes for driving a large capacitive load at low supply voltages. The proposed driver has larger bootstrap voltages than the conventional driver, which further help to increase the speed. Moreover, the on-demand bootstrapping and the transient-overdriving capabilities reduce the power consumption and relieve the gate-oxide stress of the output transistors. The presented results indicate that the proposed driver has a better performance than the conventional bootstrapped CMOS driver in terms of speed and power.
Power-efficient low-voltage bootstrapped CMOS latched driver
1999-11-25
3 pages
Article (Journal)
English
supply voltages , CMOS integrated circuits , transients , low-voltage bootstrapped CMOS latched driver , output transistors , power consumption , low-power electronics , bootstrap circuits , switching speed , capacitive load , transient-overdriving capabilities , gate-oxide stress , internal nodes , driver circuits , on-demand bootstrapping
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