1 Phase Locked Loops Continued Basic blocks –Phase frequency detector (PFD) –Loop filter...
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Transcript of 1 Phase Locked Loops Continued Basic blocks –Phase frequency detector (PFD) –Loop filter...
![Page 1: 1 Phase Locked Loops Continued Basic blocks –Phase frequency detector (PFD) –Loop filter (including charge pump) –Voltage controlled oscillator –Frequency.](https://reader036.fdocuments.us/reader036/viewer/2022081512/56649da75503460f94a929c2/html5/thumbnails/1.jpg)
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Phase Locked Loops Continued
• Basic blocks– Phase frequency detector (PFD)– Loop filter (including charge pump)– Voltage controlled oscillator– Frequency divider
PFDLoop Filter
1/N
Ref VCO
Phase-Locked Loop
LO1/M fLO=fref*N/M
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• Key specs– hold range: the frequency range over which
phase tracking can be statically maintained – pull-in range: the frequency range over which
PLL can become locked– pull-out range: dynamic limit of frequency
range for stable operation– lock range: frequency range within which a
PLL locks within one single-beat note between reference frequency and output frequency
Phase Locked Loops Continued
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Illustration of Static RangesVery slowly vary input frequency
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Phase Frequency Detector
• Generates phase difference between the input signal and VCO output signal
• Distinguish if VCO is faster or slower• Different types
– Analog vs digital– Linear vs nonlinear
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Analog phase detector: multiplier
• Linear multiplier
• Functions the same way as a mixer
• But converting to DC (same frequencies)
• Same mixer circuits can be used
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Simple BJT 2-Quadrant Multiplier
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Gilbert cell
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Waveforms
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CMOS versions
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• 2V, High-Frequency CMOS Multiplier– K-K Kan, D. Ma, K-C Mak and H.C. Luong, “Design Theory and Performance of a
1-GHz CMOS Downconversion and Upconversion Mixers,” Analog Integrated
Circuit and Signal Processing, Vol. 24, No. 2, pp. 101-111, July 2000.
Based on the Gilbert cell•Can operate at a lower supply voltage because the mixer does not use stacking• Source followers give better linearity• Has a smaller mixer gain because sharing the bias currents with the followersreduces gm
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• A Quarter-Square CMOS Multiplier– J.S. Pen˜a-Finol and J.A. Connelly, “A MOS Four-Quadrant Analog
Multiplier Using the Quarter-Square Technique,” J. of Solid-State Circuits, vol. SC-22, No. 6, pp. 1064-1073, Dec. 1987.
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• CMOS Four-Quadrant Multiplier– Babanezhad and Temes - JSSC, Dec. 1985.
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Digital phase-frequency detector• Compares edges of reference and divided
clocks.• If reference clock leads the divided clock, the UP
signal is asserted.• If the divided clock leads the reference clock ,
the DWN signal is asserted.• In an ideal PFD no pulses are present at the
output in the locked state.• Duty cycle of inputs is not relevant to the circuit
operation.• The width of the UP/DWN pulses is proportional
to the phase difference between the clock inputs.
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Digital Xor phase detector
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• Conceptual diagram
Digital phase-frequency detector
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Conventional Digital PFD
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Delay in the Conventional PFD
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Output of PFD for locked state• In locked state, narrow pulses are
generated in both UP/DWN outputs.• The width of these pulses determines the
amount of noise introduced to the VCO output by the charge-pump.
• Timing mismatch between the UP/DWN pulses is a source of spurious tones.
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• The Charge-Pump converts the phase error information provided by the PFD into a voltage that controls the VCO frequency.
• If UP is high, top switch is closed and charge is injected into capacitor, increasing voltage Vout
• If DWN is high, bottom switch is closed and charge is extracted from capacitor,decreasing voltage Vout
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State diagram
Up=0;Dn=0;
Up=0;Dn=1;
Up=1;Dn=0;
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Non-idealities
• In practical PFD the delay of the gates creates non-idealities in the phase input/output characteristic.
• The PFD can no longer resolve very small phase errors, and a dead zone is created.
• To solve this problem, extra delay is introduced in the feedback path of reset signal.
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Dead zone problem
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Non-ideal effects of charge pumps
• Current mismatch– Mismatch between source and sink currents in the charge pump
introduces a finite phase error.• Current leakage
– When the source/sink currents are off, leakage currents can flow and modify the VCO control voltage of the VCO by charging/discharging the loop filter. Spurs are introduced.
• Charge sharing– Parasitic capacitances from the switches share charge with the loop
filter when the nodes they are connected to have a large change in their voltage.
• Charge injection– Occurs when switches are turned off and the charge in their channels is
injected/extracted to the loop filter. Spurs are introduced
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Precharge PFD– S. Kim, et. al., “A 960-Mb/s/pin Interface for Skew-Tolerant Bus Using
Low Jitter PLL, IEEE J. of Solid-State Circuits, Vol. 32, No. 5, may 1997, pp. 691-700.
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Modified Precharge PFD– H. O. Johansson, “A Simple Precharged CMOS Phase Fequency Detector,”
IEEE J. of Solid-State Circuits, Vol. 33, No. 2, Feb. 1998, pp. 295-299.
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