Patent ID: 6085327
Filing Date: 2000-07-04
Classification: G06F,H03K

Abstract:
An integrated circuit generating a self-timing power start-up reset, comprising:a power-up detection circuit with an input and an output, said input of said power-up detection circuit connectable to a source of power, said output of said power-up detection circuit producing a reset pulse after said source of power is connected to said input of said power-up detection circuit, said power-up detection circuit further comprising:a voltage supply rail connected to said input of said power-up detection circuit;a reference potential;a first p-channel transistor having a source-drain path and a gate, said source of said first p-channel transistor connected to said voltage potential, and said gate of said first p-channel transistor connected to said drain of said first p-channel transistor;a first n-channel transistor having a drain-source path and a gate, said drain-source of said first n-channel transistor connected between said drain of said first p-channel transistor and said reference potential, and said gate of said first n-channel transistor connected to said drain of said first n-channel transistor;a second p-channel transistor having a source-drain path and a gate, said source of said second p-channel transistor connected to said voltage supply rail, and said gate of said second p-channel transistor connected to said gate of said first p-channel transistor;a second n-channel transistor having a drain-source path and a gate, said drain-source of said second n-channel transistor connected between said drain of said second p-channel transistor and said reference potential, and said gate of said second n-channel transistor connected to said gate of said first n-channel transistor;a third p-channel transistor having a source-drain path and a gate, said source-drain of said third p-channel transistor connected between said voltage supply rail and said drain of said second p-channel transistor, and said gate of said third p-channel transistor connected to said reference potential;a fourth p-channel transistor having a source-drain path and a gate, said source of said fourth p-channel transistor connected to said voltage supply rail, and said gate of said fourth p-channel transistor connected to said gate of said first p-channel transistor;a third n-channel transistor having a drain-source path and a gate, said drain-source of said third n-channel transistor connected between said drain of said fourth p-channel transistor and said reference potential, and said gate of said third n-channel transistor connected to said drain of said third p-channel transistor;a fourth n-channel transistor having a drain-source path and a gate, said drain-source of said fourth n-channel transistor connected to said reference potential, and said gate of said fourth n-channel transistor connected to said drain of said fourth p-channel transistor;a Schmitt trigger with an input and an output, said input of said Schmitt trigger connected to said drain of said fourth p-channel transistor, and said output of said Schmitt trigger connected to said output of said power-up detection circuit;a frequency divider with an input, a first output and a second output, said input of said frequency divider connected to said output of said power-up detection circuit, said first output of said frequency divider producing a system clock and said second output of said frequency divider producing a Div.sub.-- n.sub.-- clk pulse; anda bistable circuit with a first input, a second input, a third input and an output, said first input of said bistable circuit connected to a logical one voltage level, said second input of said bistable circuit connected to said second output of said frequency divider, said third input of said bistable circuit connected to said output of said power-up detection circuit, and said output of said bistable circuit providing a system reset signal.