Harmonic characterization and correction of device mismatch
First Claim
1. An apparatus for correction of varactor mismatch of a single segmented unified tuning bank in a digitally controlled oscillator (DCO), said unified tuning bank having a coarse tuning bank comprising a plurality of coarse tuning devices and a fine tuning bank comprising a plurality of fine tuning devices, said apparatus comprising:
- harmonic calibration means in combination with said DCO operative to determine a mismatch error value between said coarse tuning devices and said fine tuning devices.
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Abstract
An apparatus and method fore harmonic characterization and ratio correction of device mismatch between coarse and fine varactor tuning devices within a segmented unified varactor bank of an (RF) digitally controlled oscillator (DCO). The DCO is divided into an MSB bank, LSB bank and sigma-delta (SD-LSB) bank. Any ratio mismatches between MSBs and LSBs are digitally calibrated out using a DCO step-size pre-distortion scheme wherein LSB steps are adjusted to account for ratio mismatch between the MSB/LSB step sizes. A harmonic characterization technique is used to estimate the mismatches in the minimal size CMOS tuning varactors of a digitally controlled RF oscillator (DCO), wherein nominal ratio mismatch between the MSB and LSB devices is estimated using hybrid stochastic gradient DCO gain estimation algorithms. The nominal ratio mismatch and the mismatches in MSB and LSB banks are used to determine average MSB/LSB mismatch which is then used to correct the LSB steps.
29 Citations
26 Claims
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1. An apparatus for correction of varactor mismatch of a single segmented unified tuning bank in a digitally controlled oscillator (DCO), said unified tuning bank having a coarse tuning bank comprising a plurality of coarse tuning devices and a fine tuning bank comprising a plurality of fine tuning devices, said apparatus comprising:
harmonic calibration means in combination with said DCO operative to determine a mismatch error value between said coarse tuning devices and said fine tuning devices. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method of correction of device mismatch of a single segmented unified bank of conversion devices for use in a digital to analog quantity converter (DAC), said unified conversion bank having a coarse bank comprising a plurality of coarse conversion devices and a fine bank comprising a plurality of fine conversion devices, said method comprising the step of:
performing harmonic characterization of random conversion device mismatches in most significant bit (MSB) and least significant bit (LSB) devices;
said step of performing comprising the steps of;applying a sinusoidal modulation to said DAC using one or more conversion device banks; and estimating random mismatches in said DAC conversion device banks using the level of one or more harmonics in an observable frequency modulated RF spectrum output from said DAC. - View Dependent Claims (13, 14, 15, 16)
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17. A transmitter comprising:
a frequency synthesizer for performing a frequency modulation;
said frequency synthesizer comprising a digitally controlled oscillator (DCO), said DCO comprising;a single segmented unified tuning bank comprising; a coarse tuning bank comprising a plurality of coarse tuning devices adapted to provide coarse frequency tuning control of said DCO; a fine tuning bank comprising a plurality of fine tuning devices adapted to provide fine frequency tuning control of said DCO; and harmonic calibration means for determining an average ratio mismatch error value between said coarse tuning devices and said fine tuning devices. - View Dependent Claims (18)
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19. A method of ratio estimation between coarse and fine varactor tuning devices in a digitally controlled oscillator (DCO), said method comprising the steps of:
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measuring DCO gain (KDCO) for each varactor bank in said DCO to estimate a nominal ratio mismatch between most significant bit (MSB) and least significant bit (LSB) devices; performing harmonic characterization of random varactor mismatches in most significant bit (MSB) and least significant bit (LSB) devices;
said step of performing comprising the steps of;applying a sinusoidal modulation to said DCO using one or more varactor banks; estimating random mismatches in said DCO varactor banks using the level of one or more harmonics in an observable frequency modulated RF spectrum output from said DCO; and computing an average ratio mismatch between most significant bit (MSB) and least significant bit (LSB) devices using said nominal ratio estimate and individual random mismatch estimates measured in each varactor bank. - View Dependent Claims (20, 21)
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22. A transmitter comprising:
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a frequency synthesizer for performing a frequency modulation;
said frequency synthesizer comprising a digitally controlled oscillator (DCO);
said DCO comprising;a single segmented unified tuning bank comprising; a coarse tuning bank comprising a plurality of coarse tuning devices adapted to provide coarse frequency tuning control of said DCO; a fine tuning bank comprising a plurality of fine tuning devices adapted to provide fine frequency tuning control of said DCO; and circuitry for interfacing said transmitter to a scripts processor, said scripts processor suitably programmed to perform harmonic calibration by determining an average ratio mismatch error value between said coarse tuning devices and said fine tuning devices.
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23. A method of harmonic calibration of random varactor mismatches between most significant bit (MSB) device of an MSB varactor bank and least significant bit (LSB) devices of an LSB varactor bank in a digitally controlled oscillator (DCO), said method comprising the steps of:
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applying a single frequency modulation tone to said DCO; and estimating random mismatches in said DCO varactor banks using the level of one or more harmonics in an observable frequency modulated RF spectrum output from said DCO. - View Dependent Claims (24, 25, 26)
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Specification