| 摘要 |
A relaxation oscillator for generating an output clock signal includes an RC circuit, a self-biased comparator stage, and a logic circuit. The RC circuit generates first and second comparator input signals that are provided to the self-biased comparator stage. The self-biased comparator stage includes first and second input stages and a voltage reference circuit. Each of the first and second input stages in conjunction with the voltage reference circuit forms a comparator, i.e., first and second comparators corresponding to the first and second input stages, respectively. The self-biased comparator stage generates first and second comparator output signals, based on the first and second comparator input signals. The first and second comparator output signals are provided to the logic circuit that generates the output clock signal. |
| 主权项 |
1. A relaxation oscillator for generating an output clock signal, comprising:
a resistor-capacitor (RC) circuit for generating first and second comparator input signals and receiving first and second control signals; a self-biased comparator stage connected to the RC circuit for generating first and second comparator output signals, the self-biased comparator stage comprising: a self-biased comparator for receiving the first and second comparator input signals and generating first and second intermediate output signals and the first and second comparator output signals, wherein the self-biased comparator comprises:
a first input stage for receiving the first comparator input signal and generating the first intermediate output signal, wherein the first input stage includes:
a first transistor having a source terminal for receiving a supply voltage; anda second transistor having a drain terminal connected to a drain terminal of the first transistor, and a gate terminal for receiving the first comparator input signal, wherein the first intermediate output signal is generated at the drain terminals of the first and second transistors;a second input stage for receiving the second comparator input signal and generating the second intermediate output signal, wherein the second input state includes:
a third transistor having a source terminal for receiving the supply voltage; anda fourth transistor having a drain terminal connected to a drain terminal of the third transistor, a gate terminal for receiving the second comparator input signal, and a source terminal connected to a source terminal of the second transistor, wherein the second intermediate output signal is generated at the drain terminals of the third and fourth transistors;a voltage reference circuit for generating a voltage bias signal, wherein the voltage reference circuit comprises:
a fifth transistor having a source terminal for receiving the supply voltage, a gate terminal connected to a gate terminal of the third transistor, and a drain terminal connected to a gate terminal of the first transistor and the gate terminal of the third transistor, wherein the voltage bias signal is generated at the drain terminal of the fifth transistor; anda sixth transistor having a drain terminal connected to the drain terminal of the fifth transistor, a gate terminal for receiving a reference voltage, and a source terminal connected to the source terminals of the second and fourth transistors;a seventh transistor having a drain terminal connected to the source terminals of the second, fourth, and sixth transistors; anda first resistor having a first terminal connected to a source terminal of the seventh transistor and a second terminal connected to ground; an eighth transistor having a source terminal for receiving the supply voltage, and a gate terminal connected to the gate and drain terminals of the first and fifth transistors, respectively; a ninth transistor having a drain terminal connected to a drain terminal of the eighth transistor, a gate terminal connected to the drain terminal thereof and to a gate terminal of the seventh transistor, and a source terminal connected to ground; a tenth transistor having a source terminal for receiving the supply voltage, and a gate terminal connected to the drain terminals of the first and second transistors for receiving the first intermediate output signal; an eleventh transistor having a drain terminal connected to a drain terminal of the tenth transistor, a gate terminal connected to the drain terminals of the eighth and ninth transistors, and a source terminal connected to ground, wherein the first comparator output signal is generated at the drain terminals of the tenth and eleventh transistors; a twelfth transistor having a source terminal for receiving the supply voltage, and a gate terminal connected to the drain terminals of the third and fourth transistors for receiving the second intermediate output signal; and a thirteenth transistor having a drain terminal connected to a drain terminal of the twelfth transistor, a gate terminal connected to the gate terminals of the seventh and ninth transistors, and a source terminal connected to ground, wherein the second comparator output signal is generated at the drain terminals of the twelfth and thirteenth transistors. |
