1 edition of **IEEE standard definitions of physical quantities for fundamental frequency and time metrology** found in the catalog.

IEEE standard definitions of physical quantities for fundamental frequency and time metrology

- 368 Want to read
- 10 Currently reading

Published
**1988**
by Institute of Electrical and Electronics Engineers in New York, NY, USA
.

Written in English

- Frequency stability.,
- Radio frequency.,
- Measurement.

**Edition Notes**

Statement | sponsor, Instrumentation and Measurement Group of the IEEE Power Engineering Society ; approved October 20, 1988, IEEE Standards Board. |

Contributions | IEEE Power Engineering Society. Instrumentation and Measurement Group. |

The Physical Object | |
---|---|

Pagination | 20 p. ; |

Number of Pages | 20 |

ID Numbers | |

Open Library | OL16759245M |

Dobrogowski & Kasznia Real-time Assessment of Allan Deviation and Time Deviation IEEE International Frequency Control Symposium Joint with the 21st European Frequency and Time Forum https: IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology. Add tags for "IEEE Std Std IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time MetrologyRandom Instabilities.". Be the first. Confirm this request.

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Introduction to Quartz Frequency Standards return to table of contents. IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology, IEEE Std. IEEE, Hoes Lane, Piscataway, NJ , U.S.A. IEEE Std (Revision of IEEE Std ) IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology--Random Instabilities Author: IEEE Standards Coordinating Committee 27 on Time and Frequency Subject: Methods of describing random instabilities of importance to frequency and time metrology are covered.

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- IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology--Random Instabilities.

Methods of describing random instabilities of importance to frequency and time metrology are covered in this standard. Quantities covered include frequency, amplitude, and phase instabilities; spectral densities of frequency, amplitude, and phase fluctuations; and time-domain deviations of frequency fluctuations.

IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology. Abstract: This standard covers the fundamental metrology for describing physical quantities of importance to frequency and time metrology.

Quantities covered are frequency instability, phase instability, spectral densities, time instability variances, time prediction, and confidence limits when estimating the variance from a finite data set.

IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time MetrologyRandom Instabilities. Abstract: Methods of describing random instabilities of importance to frequency and time metrology are covered. Quantities covered include frequency, amplitude, and phase instabilities; spectral densities of frequency, amplitude, and phase fluctuations; and time-domain deviations of frequency fluctuations.

IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology-Random Instabilities Abstract: Methods of describing random instabilities of importance to frequency and time metrology is covered in this standard.

IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology—Random Instabilities, E.E. ISBN: has been cited by the following article: TITLE: Compatibility of the Active Inductance Double Resonance Quartz Oscillator with Q-MEMS Temperature Sensor.

Inan updated IEEE standard on frequency stability was published by the IEEE as IEEE StdStandard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology. The recommended measures of instabilities in frequency generators have gained acceptance among frequency and time users throughout the world.

IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology-Random Instabilities Publication Year:Page (s): 1 - 40 Cited by: Papers (10).

IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology—Random Instabilities. IEEE Standard – an updated IEEE standard on frequency stability was published by the IEEE as IEEE StdStandard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology.

The recommended measures of instabilities in frequency generators have gained acceptance among frequency and time users throughout the world.

The definitions of many other physical quantities rely upon the definition of the second. time and frequency standards has improv ed by 13 orders of magnitude in Fundamentals of Time and Author: Michael Lombardi. Vig (chair.), IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology-Random Instabilities (IEEE Standard ) (IEEE, New York, ).

Google Scholar by: This standard covers the fundamental metrology for describing physical quantities of importance to frequency and time metrology. Quantities covered are frequency instability, phase instability, spectral densities, time instability variances, time prediction, and confidence limits when estimating the variance from a finite data set.

IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology--Random Instabilities standard by IEEE, 02/27/ View all product details. It includes effects and metrology of acceleration; temperature, humidity, and pressure; electrical and magnetic fields; ionizing and particle radiation; and aging, warm-up time and retrace.

IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology. Purpose: IEEE Std attempted to cover not only quantities and units, but also the much broader areaimplied in its title, "General (Fundamental and Derived) Electrical and Electronics Terms." This scope proved to be far too broad, and the standard could not be maintained.

The purpose of this revision is to present authoritative definitions of physical quantities and units and other. Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology - Random Instabilities Edition: $ Unlimited (number of people that can access the subscription at any given time.

Listed IEEE Standards prices are applicaple for US firms whose annual revenue is less than $ million. Get this from a library. IEEE standard definitions of physical quantities for fundamental frequency and time metrology.

[IEEE Power Engineering Society.; IEEE Standards Board.;]. IEEE Std (Revision of IEEE Std ) - Redline. | 1 - 51 Tytuł artykułu.

IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology--Random Instabilities - Redline Autorzy. Treść / Zawartość. Warianty tytułu.

IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology. Publisher: [Place of publication not identified]: [publisher not identified], Introduction to Quartz Frequency Standards – References.

Back To Index. IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology, IEEE Std. IEEE, Hoes Lane, Piscataway, NJU.S.A. “IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology“, IEEE Std.

J.A. Barnes, “The Measurement of Linear Frequency Drift in Oscillators”, Proc. 15th Annu. PTTI Meeting, pp.Dec. IEEE Standard Definitions of Physical Quantities for Fundamental Frequency and Time Metrology - Random Instabilities.

Publisher: [Place of publication not identified]: [publisher not identified], Get this from a library! IEEE standard definitions of physical quantities for fundamental frequency and time metrology--random instabilities.

[IEEE Standards Coordinating Committee 27 (SCC27) on Time and Frequency.; IEEE-SA Standards Board.; Institute of Electrical and Electronics Engineers.;] -- Abstract: Methods of describing random instabilities of importance to frequency and time metrology.