Patent ID: 8067967
Filing Date: 2011-11-29
Classification: H03K,H03L

Abstract:
1. A phase delay line, comprising: a phase-locked loop comprising a phase detector, a charge pump, a voltage-to-current converter, a charge and discharge network of capacitance, and an up and down threshold decision circuit of sawtooth wave, wherein a reference clock and a feedback clock, as two input signals, are inputted into said phase detector, an output end of said phase detector is connected with an input end of said charge pump, an output end of said charge pump is connected with an input end of said voltage-to-current converter, said voltage-to-current converter outputs an output current as a charging and discharging current of said charge and discharge network of capacitance, said charge and discharge network of capacitance outputs a sawtooth wave having a same frequency with said reference clock into said up and down threshold decision circuit of sawtooth wave, said up and down threshold decision circuit of sawtooth wave outputs a switch control signal for controlling said charge and discharge network of capacitance, and simultaneously, said up and down threshold decision circuit of sawtooth wave outputs a first square wave, namely, said feedback clock to an input end of said phase detector, so that a phase-locked feedback loop is achieved; a duty-cycle adjusting ring comprising a duty-cycle adjusting circuit and a duty-cycle fine adjustment current source, wherein said up and down threshold decision circuit of sawtooth wave outputs a second square wave to an input end of said duty-cycle adjusting circuit, an output end of said duty-cycle adjusting circuit is connected with an input end of said duty-cycle fine adjustment current source, said duty-cycle fine adjustment current source outputs a fine adjustment discharge current to said input end of said charge and discharge network of capacitance for adjusting a discharging current of said charge and discharge network of capacitance, so that a duty-cycle adjustment feedback loop is achieved; and a voltage-sharing to time-sharing converter comprising a voltage dividing network, a set of comparators and a set of edge-triggered flip-flops, wherein said voltage dividing network comprises at least two resistors having a same resistance and connected with each other in series between a first reference voltage and a second reference voltage, and at least two switches respectively connected with said resistors in parallel, wherein said voltage dividing network outputs an equally divided voltage to a negative end of each of said comparators, said sawtooth wave outputted by said phase-locked loop is inputted into a positive end of each of said comparators, an output end of each of said comparators is connected with a clock input end of a corresponding flip-flop, said up and down threshold decision circuit of sawtooth wave respectively outputs said first square wave and said second square wave to a clock input end of an upper flip-flop and a clock input end of a lower flip-flop, wherein each of said edge-triggered flip-flops forms a frequency divider, said set of edge-triggered flip-flops composed of n flip-flops outputs equally divided n phase clocks each having a period