Journal ArticleDOI
A 9 b, 1.25 ps Resolution Coarse–Fine Time-to-Digital Converter in 90 nm CMOS that Amplifies a Time Residue
Minjae Lee,Asad A. Abidi +1 more
TLDR
A new coarse-fine TDC architecture is proposed by using an array of time amplifiers and two identical fine TDCs that compensate for the variation of the TA gain during the conversion process, which will improve the linearity further.Abstract:
This paper presents the design of a coarse-fine time-to-digital converter (TDC) that amplifies a time residue to improve time resolution, similar to a coarse-fine analog-to-digital converter (ADC). A new digital circuit has been developed to amplify the time residue with a higher gain (>16) and larger range (>80 ps) than existing solutions do. However, adapting the conventional coarse-fine architecture from ADCs is not an appropriate solution for TDCs: input time cannot be stored, and the gain of a time amplifier (TA) cannot be controlled precisely. This paper proposes a new coarse-fine TDC architecture by using an array of time amplifiers and two identical fine TDCs that compensate for the variation of the TA gain during the conversion process. The measured DNL and INL are plusmn0.8 LSB and plusmn3 LSB, respectively, with a value of 1.25 ps per 1 LSB, while the standard deviation of output code for constant inputs remains below 1 LSB across the TDC range. Although the nonlinearity is larger than 1 LSB, using an INL lookup table or better matched delays in the coarse TDC delay chain will improve the linearity further.read more
Citations
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Journal ArticleDOI
A Multi-Path Gated Ring Oscillator TDC With First-Order Noise Shaping
M.Z. Straayer,Michael H. Perrott +1 more
TL;DR: An 11-bit, 50-MS/s time-to-digital converter (TDC) using a multipath gated ring oscillator with 6 ps of effective delay per stage demonstrates 1st-order noise shaping.
Journal ArticleDOI
A Time-Resolved, Low-Noise Single-Photon Image Sensor Fabricated in Deep-Submicron CMOS Technology
M. Gersbach,Yuki Maruyama,Rahmadi Trimananda,Matthew W. Fishburn,David Stoppa,Justin Richardson,Richard Walker,Robert Henderson,Edoardo Charbon +8 more
TL;DR: The target application for this sensor is time-resolved imaging, in particular fluorescence lifetime imaging microscopy and 3D imaging, and the characterization shows the suitability of the proposed sensor technology for these applications.
Journal ArticleDOI
A 12-Bit Vernier Ring Time-to-Digital Converter in 0.13 $\mu{\hbox {m}}$ CMOS Technology
TL;DR: A 12-bit Vernier ring time-to-digital converter (TDC) with time resolution of 8 ps for digital-phase-locked-loops (DPLL) is presented, which achieves large detectable range, fine time resolution, small die size and low power consumption simultaneously.
Journal ArticleDOI
A High-Linearity, 17 ps Precision Time-to-Digital Converter Based on a Single-Stage Vernier Delay Loop Fine Interpolation
TL;DR: A time-to-digital converter architecture capable of reaching high-precision and high-linearity with moderate area occupation per measurement channel with a couple of two-stage interpolators that exploit the cyclic sliding scale technique in order to improve the conversion linearity.
Journal ArticleDOI
A 56.4-to-63.4 GHz Multi-Rate All-Digital Fractional-N PLL for FMCW Radar Applications in 65 nm CMOS
TL;DR: A fractional-N ADPLL employs a high-resolution 60 GHz digitally-controlled oscillator (DCO) and is capable of multi-rate two-point FM and achieves a measured rms jitter of 590.2 fs, while the loop settles within 3 μs.
References
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Journal ArticleDOI
A high-resolution CMOS time-to-digital converter utilizing a Vernier delay line
TL;DR: Test results show that even higher resolutions can be achieved using the VDL method, and resolutions down to 5 ps are demonstrated to be obtainable.
Journal ArticleDOI
A 12-bit 75-MS/s pipelined ADC using open-loop residue amplification
Boris Murmann,Bernhard E. Boser +1 more
TL;DR: In this article, the authors proposed a digital background calibration technique as an enabling element to replace precision amplifiers by simple power-efficient open-loop stages, achieving more than 60% residue amplifier power savings over a conventional implementation.
Journal ArticleDOI
1.3 V 20 ps time-to-digital converter for frequency synthesis in 90-nm CMOS
TL;DR: A 20-ps time-to-digital converter (TDC) realized in 90-nm digital CMOS is used as a phase/frequency detector and charge pump replacement in an all-digital phase-locked loop for a fully-compliant Global System for Mobile Communications (GSM) transceiver.
Journal ArticleDOI
A CMOS time-to-digital converter with better than 10 ps single-shot precision
TL;DR: A high-precision CMOS time-to-digital converter IC has been designed based on a counter and two-level interpolation realized with stabilized delay lines that reduces the number of delay elements and registers and lowers the power consumption.
Proceedings ArticleDOI
A 9b, 1.25ps Resolution Coarse-Fine Time-to-Digital Converter in 90nm CMOS that Amplifies a Time Residue
Minjae Lee,Asad A. Abidi +1 more
TL;DR: In this article, a 9 b 1.25 ps two-step time-to-digital converter is implemented in 90 nm CMOS, which uses a new circuit to amplify the time residue, and compensates mismatch with subrange normalization.
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