Synchronization of clock pulses with an external pulse

E. O. Brezhneva;  ; O. G. Bondar; N. V. Poliakov

doi:10.31044/1684-2588-2021-0-7-34-40

Synchronization of clock pulses with an external pulse

Telecommunications ◽

10.31044/1684-2588-2021-0-7-34-40 ◽

2021 ◽

Vol 7 (1) ◽

pp. 34-40

Author(s):

E. O. Brezhneva ◽

◽

O. G. Bondar ◽

N. V. Poliakov

Keyword(s):

Delay Line ◽

Total Delay ◽

Time Intervals

A method for synchronizing clock pulses with an external pulse is proposed, which allows reducing the errors in the formation of time intervals when changing the duration of the total delay of a multi-lead delay line, and a device that implements this method. Studies have been conducted that demonstrate the effectiveness of the proposed method, and time diagrams are provided.

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A 9 Bit, 3.6 ps Resolution Pipeline Time-to-Digital Converter

Journal of Circuits System and Computers ◽

10.1142/s0218126620501248 ◽

2019 ◽

Vol 29 (08) ◽

pp. 2050124

Author(s):

Farshad Goodarzi ◽

Siroos Toofan

Keyword(s):

Fine Structure ◽

Delay Line ◽

Supply Voltage ◽

Cmos Technology ◽

Digital Converter ◽

Time Intervals ◽

Wide Linear Range ◽

Time To Digital Converter ◽

Good Linearity ◽

Time Amplifier

This paper describes a 9-bit time-to-digital converter (TDC) with 3.6 ps resolution. The resolution of 3.6 ps is achieved using coarse and fine structure. The structure of the proposed two-step pipeline TDC is composed of a 4-bit coarse TDC (CTDC) based on delay line and a 5-bit fine TDC (FTDC) based on an SAR-CD algorithm where a Time Amplifier (TA) is used between them. Since TA amplifies the time intervals in different stages of delay line to achieve accurate gain with wide linear range. Therefore, the TDC has good linearity. The proposed TDC has Differential Non-Linearity (DNL) and Integral Non-Linearity (INL) errors of 1.6 and 2.6 LSB, respectively. This TDC was designed in 0.18[Formula: see text][Formula: see text]m CMOS technology. Using a supply voltage of 1.8[Formula: see text]V, the proposed TDC consumes 1.88[Formula: see text]mW at 25 MS/s throughput.

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A 6-Locking Cycles All-Digital Duty Cycle Corrector with Synchronous Input Clock

Electronics ◽

10.3390/electronics10070860 ◽

2021 ◽

Vol 10 (7) ◽

pp. 860

Author(s):

Shao-Ku Kao

Keyword(s):

Duty Cycle ◽

Delay Line ◽

Supply Voltage ◽

Cmos Process ◽

Delay Lines ◽

Clock Frequency ◽

Quantization Method ◽

Total Delay ◽

Chip Area ◽

Measurement Results

This paper proposes an all-digital duty cycle corrector with synchronous fast locking, and adopts a new quantization method to effectively produce a phase of 180 degrees or half delay of the input clock. By taking two adjacent rising edges input to two delay lines, the total delay time of the delay line is twice the other delay line. This circuit uses a 0.18 μm CMOS process, and the overall chip area is 0.0613 mm2, while the input clock frequency is 500 MHz to 1000 MHz, and the acceptable input clock duty cycle range is 20% to 80%. Measurement results show that the output clock duty cycle is 50% ± 2.5% at a supply voltage of 1.8 V operating at 1000 MHz, the power consumed is 10.1 mW, with peak-to-peak jitter of 9.89 ps.

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Spatiotemporal Conversion of Auditory Information for Cochleotopic Mapping

Neural Computation ◽

10.1162/neco.2007.19.2.351 ◽

2007 ◽

Vol 19 (2) ◽

pp. 351-370 ◽

Cited By ~ 8

Author(s):

Osamu Hoshino

Keyword(s):

Action Potentials ◽

Delay Line ◽

Primary Auditory Cortex ◽

Auditory Information ◽

Latency Time ◽

Delay Lines ◽

Time Intervals ◽

Communication Signals ◽

Cortical Areas ◽

The Brain

Auditory communication signals such as monkey calls are complex FM vocal sounds and in general induce action potentials in different timing in the primary auditory cortex. Delay line scheme is one of the effective ways for detecting such neuronal timing. However, the scheme is not straightforwardly applicable if the time intervals of signals are beyond the latency time of delay lines. In fact, monkey calls are often expressed in longer time intervals (hundreds of milliseconds to seconds) and are beyond the latency times observed in the brain (less than several hundreds of milliseconds). Here, we propose a cochleotopic map similar to that in vision known as a retinotopic map. We show that information about monkey calls could be mapped on a cochleotopic cortical network as spatiotemporal firing patterns of neurons, which can then be decomposed into simple (linearly sweeping) FM components and integrated into unified percepts by higher cortical networks. We suggest that the spatiotemporal conversion of auditory information may be essential for developing the cochleotopic map, which could serve as the foundation for later processing, or monkey call identification by higher cortical areas.

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Continuously Variable Mercury Delay Line Equipment for the Measurement of Short Time Intervals

Review of Scientific Instruments ◽

10.1063/1.1715159 ◽

1955 ◽

Vol 26 (10) ◽

pp. 942-945 ◽

Cited By ~ 5

Author(s):

C. Sheer ◽

A. Zinn ◽

N. Hartmann

Keyword(s):

Delay Line ◽

Time Intervals ◽

Short Time

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Rotational Characteristics of the Green Solar Corona: 1947-1991

International Astronomical Union Colloquium ◽

10.1017/s0252921100025197 ◽

1994 ◽

Vol 144 ◽

pp. 139-141 ◽

Cited By ~ 2

Author(s):

J. Rybák ◽

V. Rušin ◽

M. Rybanský

Keyword(s):

Solar Corona ◽

World Wide ◽

Rotation Period ◽

Original Data ◽

Coronal Emission ◽

Time Intervals ◽

Data Set ◽

The World ◽

Coronal Emission Line ◽

Homogeneous Data

AbstractFe XIV 530.3 nm coronal emission line observations have been used for the estimation of the green solar corona rotation. A homogeneous data set, created from measurements of the world-wide coronagraphic network, has been examined with a help of correlation analysis to reveal the averaged synodic rotation period as a function of latitude and time over the epoch from 1947 to 1991.The values of the synodic rotation period obtained for this epoch for the whole range of latitudes and a latitude band ±30° are 27.52±0.12 days and 26.95±0.21 days, resp. A differential rotation of green solar corona, with local period maxima around ±60° and minimum of the rotation period at the equator, was confirmed. No clear cyclic variation of the rotation has been found for examinated epoch but some monotonic trends for some time intervals are presented.A detailed investigation of the original data and their correlation functions has shown that an existence of sufficiently reliable tracers is not evident for the whole set of examinated data. This should be taken into account in future more precise estimations of the green corona rotation period.

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Prolonged Fixation Studies For Spaceflight

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100072101 ◽

1973 ◽

Vol 31 ◽

pp. 332-333

Author(s):

Robert Corbett ◽

Delbert E. Philpott ◽

Sam Black

Keyword(s):

High Pressure ◽

Living Systems ◽

Prolonged Storage ◽

Time Intervals ◽

Early Signs ◽

Large Numbers

Observation of subtle or early signs of change in spaceflight induced alterations on living systems require precise methods of sampling. In-flight analysis would be preferable but constraints of time, equipment, personnel and cost dictate the necessity for prolonged storage before retrieval. Because of this, various tissues have been stored in fixatives and combinations of fixatives and observed at various time intervals. High pressure and the effect of buffer alone have also been tried.Of the various tissues embedded, muscle, cartilage and liver, liver has been the most extensively studied because it contains large numbers of organelles common to all tissues (Fig. 1).

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Ultrastructure of Lymphatic Capillaries in the Transport of Colloidal Particles

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100060945 ◽

1967 ◽

Vol 25 ◽

pp. 186-187

Author(s):

L. V. Leak ◽

J. F. Burke

Keyword(s):

Connective Tissue ◽

Colloidal Particles ◽

Ultrastructural Level ◽

Vital Role ◽

Time Intervals ◽

Thorium Dioxide ◽

Lymphatic Capillary ◽

Tissue Area ◽

Rapid Removal ◽

Tissue Fluids

The vital role played by the lymphatic capillaries in the transfer of tissue fluids and particulate materials from the connective tissue area can be demonstrated by the rapid removal of injected vital dyes into the tissue areas. In order to ascertain the mechanisms involved in the transfer of substances from the connective tissue area at the ultrastructural level, we have injected colloidal particles of varying sizes which range from 80 A up to 900-mμ. These colloidal particles (colloidal ferritin 80-100A, thorium dioxide 100-200 A, biological carbon 200-300 and latex spheres 900-mμ) are injected directly into the interstitial spaces of the connective tissue with glass micro-needles mounted in a modified Chambers micromanipulator. The progress of the particles from the interstitial space into the lymphatic capillary lumen is followed by observing tissues from animals (skin of the guinea pig ear) that were injected at various time intervals ranging from 5 minutes up to 6 months.

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