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        Digital Library IEEE Standards IEEE Spectrum More Sites eTools Standards Access
        Standards Search Standards Standards Development Standards Adoption Choose
        from the many ways to access IEEE SA Standards. Choose from individual or
        organizational access options to get the standards you need. Find the standards
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        designed to help accelerate market adoption, reduce costs and more. A vendor-neutral,
        inclusive, open source platform\u2014for all, from independent software developers
        and start ups to industry, academic and research institutions. Open to consortia,
        industry alliance or other industry organizations, looking to bring forward
        specifications for standards development and market adoption. Facilitating
        collaboration among organizations and individuals as they hone and refine
        their thinking on rapidly changing technologies. Guidelines for practical
        safeguarding during the installation, operation, and maintenance of electric
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        them. Program for policymakers providing tailored standards information, access
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        technological advances on a global scale. Working to standardize seamless
        and ubiquitous connectivity across all applications of connected technologies.
        Focused on enabling affordable healthcare, access to medicine, and innovation
        to improve overall global wellness. Working to help the evolving mobility
        ecosystem address some of its greatest business opportunities that have the
        potential to solve major societal challenges. Building bridges between the
        worlds of technology, standards, and policy making. Get Involved Events IEEE
        SA Membership How to Get Involved Learn about opportunities to engage with
        IEEE SA. Join us at upcoming virtual or in-person events. Flexible membership
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        Individual and organizational effectiveness program to enable the success
        of our vital volunteers. Read the latest news on IEEE SA. Subscribe to our
        newsletter and keep up to date on the latest standards, event, and activities.
        Get the standards you need. Select from individual standards or standards
        bundles. MAC Address Active Standard IEEE 528-2019 IEEE Standard for Inertial
        Sensor Terminology Purchase Access via Subscription Home Standards IEEE 528-2019
        Terms and definitions relating to inertial sensors are presented in this standard.
        Usage as understood by the inertial sensor community is given preference over
        general technical usage of the terms herein. The criterion for inclusion of
        a term and its definition in this standard is usefulness as related to inertial
        sensor technology. Sponsor Committee AES\/GA - Gyro Accelerometer Panel Learn
        More Status Active Standard PAR Approval 2018-05-14 Superseding 528-2001 Board
        Approval 2019-06-13 History Published: 2019-10-08 Working Group Details Society
        IEEE Aerospace and Electronic Systems Society Learn More Sponsor Committee
        AES\/GA - Gyro Accelerometer Panel Learn More Working Group SENSR_WG - Sensors
        Working Group Learn More IEEE Program Manager Dan Perez Contact Working Group
        Chair Harry Davis Active Projects Active Standards Superseded Standards Inactive-Withdrawn
        Standards Inactive-Reserved Standards P1431 Standard for Specifying and Testing
        Coriolis Vibratory Gyros This standard defines requirements and test procedures
        for a single-axis Coriolis vibratory gyro (CVG) for use as a sensor in attitude
        control systems, angular displacement measuring systems, and angular rate
        measuring systems. Informative annexes cover CVG design features and theoretical
        principles of operation. Learn More 1293-2018 IEEE Standard Specification
        Format Guide and Test Procedure for Linear Single-Axis, Nongyroscopic Accelerometers
        The specification and test requirements for a linear, single-axis, nongyroscopic
        accelerometer for use in inertial navigation, guidance, and leveling systems
        are defined. A standard specification guide and a compilation of recommended
        test procedures for such accelerometers are provided. Informative annexes
        are given on the various types of such accelerometers (force or pendulous
        torque rebalance with analog or digital output, vibrating beam, and micromechanical)
        and error effects, on filtering, noise, and transient analysis techniques,
        and on calibration and modeling techniques (multipoint tumble analysis, vibration
        and shock test analyses, and geophysical effects in inertial instrument testing).
        Learn More 1554-2005 IEEE Recommended Practice for Inertial Sensor Test Equipment,
        Instrumentation, Data Acquisition, and Analysis Test equipment, data acquisition
        equipment, instrumentation, test facilities, and data analysis techniques
        used in inertial sensor testing are described in this recommended practice.
        Learn More 647-2006 IEEE Standard Specification Format Guide and Test Procedure
        for Single-Axis Laser Gyros Specification and test requirements for a single-axis
        ring laser gyro (RLG) for use as a sensor in attitude control systems, angular
        displacement measuring systems, and angular rate measuring systems are defined.
        A standard specification format guide for the preparation of a single-axis
        RLG is provided. A compilation of recommended procedures for testing an RLG,
        derived from those presently used in the industry, is also provided. Learn
        More 813-1988 IEEE Specification Format Guide and Test Procedure for Two-Degree-of-Freedom
        Dynamically Tuned Gyros A format guide for the preparation of a two-degree-of-freedom
        dynamically tuned gyro (DTG) specification is given that provides a common
        ground of terminology and practice for manufacturers and users. A compilation
        of recommended procedures for testing a DTG is also given. The requirements
        and test procedures are defined in terms unique to the DTG. They cover applications
        of the gyro as an angular motion sensor in navigation and control systems.
        They apply to two modes of use: (1) as a strap-down sensor in operating environments
        typical of aircraft and missile applications, and (2) as a sensor in gimballed
        platform applications in which the dynamic angular inputs to which the gyro
        is subjected are benign relative to the accuracy required. In the case of
        the strap-down DTG, the characteristics of the external capture loops are
        considered to the extent necessary to define the gyro performance. Learn More
        952-2020 IEEE Standard for Specifying and Testing Single-Axis Interferometric
        Fiber Optic Gyros Specification and test procedures for a single-axis interferometric
        fiber optic gyro (IFOG) for use as a sensor in attitude control systems, angular
        displacement measuring systems, and angular rate measuring systems are defined.
        The test procedures are derived from those presently used in the industry.
        Learn More 1293-1998\/Cor 1-2008 IEEE Standard Specification Format Guide
        and Test Procedure for Linear,Single-Axis, Nongyroscopic Accelerometers Corrigendum
        1: Changes to Annex K and Annex L Corrigendum to IEEE Std 1293-1998. Specification
        and test requirements for linear, single-axis, nongyroscopic accelerometers
        for use as a sensor in attitude control systems, linear displacement measuring
        systems, and linear rate measuring systems are defined. The specification
        format guide and test procedure standard applies to force-rebalance accelerometers
        (pendulous or translational proof mass), vibrating beam accelerometers (VBAs),
        and micromechanical accelerometers that range from lesser accuracy to high
        accuracy devices. Learn More 528-2001 IEEE Standard for Inertial Sensor Terminology
        Terms and definitions relating to inertial senors are presented in this standard.
        Usage as understood by the inertial sensor community is given preference over
        general technical usage of the terms herein. The criterion for inclusion of
        a term and its definition in this standard is usefulness as related to inertial
        sensor technology. Learn More 952-1997 IEEE Standard Specification Format
        Guide and Test Procedure for Single-Axis Interferometric Fiber Optic Gyros
        Specification and test requirements for a single-axis interferometric fiber
        optic gyro (IFOG) for use as a sensor in attitude control systems, angular
        displacement measuring systems, and angular rate measuring systems are defined.
        A standard specification format guide for the preparation of a single-axis
        IFOG is provided. A compilation of recommended procedures for testing a fiber
        optic gyro, derived from those presently used in the industry, is also provided.
        Learn More 952-1997\/Cor 1-2016 IEEE Standard Specification Format Guide and
        Test Procedure for Single-Axis Interferometric Fiber Optic Gyros -- Corrigendum
        1: Figure 1 and Subclauses 5.3.4, 8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4,
        12.12.3.1, and 12.12.4.1 Errors identified in IEEE Std 952-1997 are corrected
        in this corrigendum. Corrections are made to Figure 1 and in subclauses 5.3.4,
        8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4, 12.12.3.1, and 12.12.4.1. Learn
        More No Inactive-Withdrawn Standards 1431-2004 IEEE Standard Specification
        Format Guide and Test Procedure for Coriolis Vibratory Gyros Specification
        and test requirements for a single-axis Coriolis vibratory gyro (CVG) for
        use as a sensor in attitude control systems, angular displacement measuring
        systems, and angular rate measuring systems are defined. A stadard specification
        format guide for the preparation of a single-axis CVG is provided. A complilation
        of recommended procedures for testing a CVG, derived from those presently
        used in the industry, is also provided. Informative annexes cover CVG design
        features and theoretical principles of operation. Learn More 1431-2004\/Cor
        1-2008 IEEE Standard Specification Format Guide and Test Procedure for Coriolis
        Vibratory Gyros - Corrigendum 1 Corrigendum to IEEE Std 1431-2004. Learn More
        292-1969 IEEE Specification Format for Single-Degree-of-Freedom Spring-Restrained
        Rate Gyros This specification defines the requirements for a single-degree-of-freedom
        spring-restrained rate gyro for [aircraft, missile, spacecraft,______] applications.
        The rate gyro shall be capable of providing [(dc, ac) voltage outputs proportional
        to angular rate inputs up to______ degrees per second, a switch closure(s)
        at angular rates (exceeding,less than)______ (+,-,u00b1)______ degrees per
        second]. Learn More 293-1969 IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros Recommended rate gyro test procedures derived
        from those currently in use, including test conditions to be considered, are
        compiled. In some cases alternate methods for measuring a performance characteristic
        have been included. This standard is intended to be a guide in the preparation
        of Section 4 of a specification that follows the format of IEEE Std 292, Specification
        Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros. Learn More
        293-1969\/Cor 1-2014 IEEE Standard for IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros -- Corrigendum 1: Table 1 Heading Correction
        to Table 1 on page 14 of IEEE Std 293-1969 Learn More 517-1974 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Degree-of-Freedom
        Rate-Integrating Gyros A specification format guide for the preparation of
        a rate-integrating gyro specification that provides a common meeting ground
        of terminology and practice for manufacturers and users is presented. A compilation
        of recommended procedures for testing a rate-integrating gyro is given. Learn
        More 529-1980 Supplement for Strapdown Applications to IEEE Standard Specification
        Format Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating
        Gyros A specification format guide for the preparation of a rate-integrating
        gyroscope specification is presented. Recommended procedures for testing a
        rate-integrating gyroscope are compiled. This standard, when combined with
        IEEE Std 517-1974 (R1980), defines the requirements and test procedures in
        terms of characteristics unique to the gyroscope or those applications in
        which the dynamic angular inputs are significantly greater than the limitations
        identified in IEEE Std 517. Learn More 529-1980\/Cor 1-2017 IEEE Standard
        Supplement for Strapdown Applications to IEEE Standard Specification Format
        Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating Gyros
        - Corrigendum 1: 3.3.9.2.2, 3.6.4.1.1, 3.6.4.1.2, 6.3, and 10.10.4.1 Corrections
        are made by this corrigendum to material already published in IEEE Std 529-1980.
        Learn More 671-1985 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement A guide is presented for the preparation of a specification
        and test procedure for an inertial angular sensor that provides a common meeting
        ground of terminology and practice for manufacturers and users of an array
        of sensors that have been developed to meet needs not easily met by traditional
        spinning-rotor gyroscopes. A test procedure for verifying that the specifications
        have been met is given. The standard is not intended to compete with existing
        standards for specific devices with highly specific models and error sources,
        such as spring-restrained rate gyros, but to provide a uniform guide for those
        inertial angular sensors that have not been covered elsewhere. Learn More
        671-1985\/Cor 1-2010 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement Corrigendum 1: 4.7.2.6 Short-Term Stability and Annex A Sensor
        Dynamic Block Diagrams IEEE Std 671-1985 provides specifications and test
        requirements for a non-gyroscopic inertial angular sensor that may measure
        angular jerk, acceleration, rate, or displacement with or without response
        down to zero frequency. A standard specification format is provided. A compilation
        of recommended test procedures, derived from those presently used in the industry,
        is also provided. Informative annexes cover design features and theoretical
        principles of operation. This corrigendum makes changes to 4.7.2.6 to delete
        a sentence that does not belong there, to add a subclause that was inadvertently
        left out, and to renumber the existing subclauses. Changes are also being
        made to fix the block diagrams in Annex A, to correct a misspelling of inertia,
        and to add a missing symbol. Learn More 836-2009 IEEE Recommended Practice
        for Precision Centrifuge Testing of Linear Accelerometers This recommended
        practice describes the conduct and analysis of precision tests that are to
        be performed on linear accelerometers using centrifuge techniques. The term
        u201cprecision,u201d in this context, refers to tests that are conducted to
        evaluate accelerometer parameters, as opposed to those conducted to establish
        environmental survivability only. Evaluation may take the form of determining
        the coefficients of the accelerometer''s model equation, except for bias and
        scale factor, which are most accurately determined by static multi-position
        tests. Alternatively, evaluation may only establish that the accelerometer
        output complies with specific error limit criteria. Learn More Facebook Twitter
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        IEEE.org IEEE Xplore Digital Library IEEE Standards IEEE Spectrum More Sites
        eTools Standards Access Standards Search Standards Standards Development Standards
        Adoption Choose from the many ways to access IEEE SA Standards. Choose from
        individual or organizational access options to get the standards you need.
        Find the standards you\u2019re looking for. Get involved in the development
        of market-driven technology standards with proven expertise and dedicated
        support. Learn more about how to adopt IEEE standards. Products & Programs
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        Open Source Industry Affiliate Network (IAN) Industry Connections The National
        Electrical Safety Code\u00ae (NESC\u00ae) Registration Authority Government
        Engagement Program on Standards Standards Fellowship All Products & Programs
        Full ecosystem of standards-related solutions to help drive awareness, activation,
        and adoption. Providing support services to help manage the day-to-day operations
        of industry groups, allowing key stakeholders to focus on the work at hand.
        Focused on development and implementation of rigorous conformity assessment
        programs designed to help accelerate market adoption, reduce costs and more.
        A vendor-neutral, inclusive, open source platform\u2014for all, from independent
        software developers and start ups to industry, academic and research institutions.
        Open to consortia, industry alliance or other industry organizations, looking
        to bring forward specifications for standards development and market adoption.
        Facilitating collaboration among organizations and individuals as they hone
        and refine their thinking on rapidly changing technologies. Guidelines for
        practical safeguarding during the installation, operation, and maintenance
        of electric supply, communication lines and associated equipment. Assigns
        and maintains unique identifiers and unambiguous names to objects for those
        wishing to register them. Program for policymakers providing tailored standards
        information, access to the IEEE SA standardization ecosystem, and standardization
        resources. Providing global standards professionals the opportunity to observe
        the IEEE standards development process and learn about technical areas of
        interest. See all the programs, products, and services that IEEE SA has to
        offer. Focuses Artificial Intelligence Systems (AIS) Connectivity & Telecom
        Energy Foundational Technologies Healthcare and Life Sciences Mobility Government
        Engagement Strategic focuses and industries where IEEE SA is raising the world\u2019s
        standards. Developing accessible and sustainable approaches and solutions
        for practical application of AIS principles and frameworks. Advancing robust,
        responsible, and affordable connectivity. Enabling sustainable, efficient,
        and accessible energy through technological advances on a global scale. Working
        to standardize seamless and ubiquitous connectivity across all applications
        of connected technologies. Focused on enabling affordable healthcare, access
        to medicine, and innovation to improve overall global wellness. Working to
        help the evolving mobility ecosystem address some of its greatest business
        opportunities that have the potential to solve major societal challenges.
        Building bridges between the worlds of technology, standards, and policy making.
        Get Involved Events IEEE SA Membership How to Get Involved Learn about opportunities
        to engage with IEEE SA. Join us at upcoming virtual or in-person events. Flexible
        membership options that offer enhanced participation in IEEE SA activities,
        standards development, and governance. There are many opportunities for participation,
        find the right one for you. Resources Training & Development News IEEE SA
        Newsletter Standards Store Training and communication resources to stay connected.
        Individual and organizational effectiveness program to enable the success
        of our vital volunteers. Read the latest news on IEEE SA. Subscribe to our
        newsletter and keep up to date on the latest standards, event, and activities.
        Get the standards you need. Select from individual standards or standards
        bundles. MAC Address Tag: Aerospace-electronics Home Tag: aerospace-electronics
        IEEE 521-2019 Letter terms in common usage are related to the frequency ranges
        that they represent in this standard. Read more IEEE 1939.1-2021 A structure
        of low-altitude airspace for efficient unmanned aerial vehicle (UAV) traffic
        management is defined in this standard. The standard elaborates the structural
        low altitude based on UAV low-altitude public air routes from five parts:
        grid technology, remote sensing data, communication and networking, route
        planning, operation, and management. Read more IEEE 952-2020 Specification
        and test procedures for a single-axis interferometric fiber optic gyro (IFOG)
        for use as a sensor in attitude control systems, angular displacement measuring
        systems, and angular rate measuring systems are defined. The test procedures
        are derived from those presently used in the industry. Read more IEEE 528-2019
        Terms and definitions relating to inertial sensors are presented in this standard.
        Usage as understood by the inertial sensor community is given preference over
        general technical usage of the terms herein. The criterion for inclusion of
        a term and its definition in this standard is usefulness as related to inertial
        sensor technology. Read more IEEE 952-1997\/Cor 1-2016 Errors identified in
        IEEE Std 952-1997 are corrected in this corrigendum. Corrections are made
        to Figure 1 and in subclauses 5.3.4, 8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4,
        12.12.3.1, and 12.12.4.1. Read more IEEE\/AIEE 700-1953 Aircraft Direct-Current
        Apparatus Voltage Ratings Read more IEEE\/AIEE 750.11-1960 This pamphlet is
        one of a series comprising the Report on Aircraft and Missiles Electric Systems
        Guide, and has been so printed in order to allow for more convenient revision
        and addition of Sections as available without necessitating a reprint of the
        entire Guide. As of the time of printing this pamphlet the available Sections
        are: No. 750.1-Sections 000- Introduction, 100- Criteria for the Electric
        System, 200- Principal Subdivisions of Electric System, 300- Selection of
        the System, No. 750.4-Section 400- Installation Practices, No. 750.5-Sections
        500-Equipment Characteristics, 800- Electric System Design Procedures,No.
        750.11-Appendices I- Characteristics of Alternating-Current Generators Affecting
        Their Application\u2026 Read more IEEE\/AIEE 750.1-1960 Material comprising
        this report is directed primarily at the attainment of improved application
        technique--the attainment of the highest possible quality of performance from
        a combination of particular devices to perform a given function. The performance
        qualities exhibited by a composite system composed of numerous devices will
        be influenced by the character of devices which are selected to work together
        and the manner in which they are interconnected or correlated. The extent
        to which such composite systems may be benefited by proper application technique
        is great. Realization of the stated objective involves comprehensive treatment
        of the following character expressed quantitatively in\u2026 Read more IEEE\/AIEE
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        the world\u2019s largest technical professional organization dedicated to
        advancing technology for the benefit of humanity. Subscribe Newswire Sign
        up for our monthly newsletter to learn about new developments, including resources,
        insights and more. "}},{"id":"9cbcfe1a1a10411b11c4725a58de46093d36dbb24df9cf54f22fc40c487274be111ebd55c6bbfdced6a400f258cc88df638efa40720209c344f3f919968e9a7b","fields":{"meta_keywords_la":["Aerospace
        Electronics,Power and Energy"],"doc_type_l":"text\/html","meta_type_la":["Standard"],"meta_description_l":"Terms
        and definitions relating to inertial senors are presented in this standard.
        Usage as understood by the inertial sensor community is given preference over
        general technical usage of the terms herein. The criterion for inclusion of
        a term and its definition in this standard is usefulness as related to inertial
        sensor technology.","meta_topic_la":["Aerospace Electronics,Power and Energy"],"doc_id_l":"https:\/\/standards.ieee.org\/ieee\/528\/780\/","doc_title_t":"IEEE
        SA - IEEE 528-2001","doc_text_t":"IEEE SA - IEEE 528-2001 IEEE.org IEEE Xplore
        Digital Library IEEE Standards IEEE Spectrum More Sites eTools Standards Access
        Standards Search Standards Standards Development Standards Adoption Choose
        from the many ways to access IEEE SA Standards. Choose from individual or
        organizational access options to get the standards you need. Find the standards
        you\u2019re looking for. Get involved in the development of market-driven
        technology standards with proven expertise and dedicated support. Learn more
        about how to adopt IEEE standards. Products & Programs Alliance Management
        Services Conformity Assessment & Certification IEEE SA Open Source Industry
        Affiliate Network (IAN) Industry Connections The National Electrical Safety
        Code\u00ae (NESC\u00ae) Registration Authority Government Engagement Program
        on Standards Standards Fellowship All Products & Programs Full ecosystem of
        standards-related solutions to help drive awareness, activation, and adoption.
        Providing support services to help manage the day-to-day operations of industry
        groups, allowing key stakeholders to focus on the work at hand. Focused on
        development and implementation of rigorous conformity assessment programs
        designed to help accelerate market adoption, reduce costs and more. A vendor-neutral,
        inclusive, open source platform\u2014for all, from independent software developers
        and start ups to industry, academic and research institutions. Open to consortia,
        industry alliance or other industry organizations, looking to bring forward
        specifications for standards development and market adoption. Facilitating
        collaboration among organizations and individuals as they hone and refine
        their thinking on rapidly changing technologies. Guidelines for practical
        safeguarding during the installation, operation, and maintenance of electric
        supply, communication lines and associated equipment. Assigns and maintains
        unique identifiers and unambiguous names to objects for those wishing to register
        them. Program for policymakers providing tailored standards information, access
        to the IEEE SA standardization ecosystem, and standardization resources. Providing
        global standards professionals the opportunity to observe the IEEE standards
        development process and learn about technical areas of interest. See all the
        programs, products, and services that IEEE SA has to offer. Focuses Artificial
        Intelligence Systems (AIS) Connectivity & Telecom Energy Foundational Technologies
        Healthcare and Life Sciences Mobility Government Engagement Strategic focuses
        and industries where IEEE SA is raising the world\u2019s standards. Developing
        accessible and sustainable approaches and solutions for practical application
        of AIS principles and frameworks. Advancing robust, responsible, and affordable
        connectivity. Enabling sustainable, efficient, and accessible energy through
        technological advances on a global scale. Working to standardize seamless
        and ubiquitous connectivity across all applications of connected technologies.
        Focused on enabling affordable healthcare, access to medicine, and innovation
        to improve overall global wellness. Working to help the evolving mobility
        ecosystem address some of its greatest business opportunities that have the
        potential to solve major societal challenges. Building bridges between the
        worlds of technology, standards, and policy making. Get Involved Events IEEE
        SA Membership How to Get Involved Learn about opportunities to engage with
        IEEE SA. Join us at upcoming virtual or in-person events. Flexible membership
        options that offer enhanced participation in IEEE SA activities, standards
        development, and governance. There are many opportunities for participation,
        find the right one for you. Resources Training & Development News IEEE SA
        Newsletter Standards Store Training and communication resources to stay connected.
        Individual and organizational effectiveness program to enable the success
        of our vital volunteers. Read the latest news on IEEE SA. Subscribe to our
        newsletter and keep up to date on the latest standards, event, and activities.
        Get the standards you need. Select from individual standards or standards
        bundles. MAC Address Superseded Standard IEEE 528-2001 IEEE Standard for Inertial
        Sensor Terminology Purchase Access via Subscription Home Standards IEEE 528-2001
        Terms and definitions relating to inertial senors are presented in this standard.
        Usage as understood by the inertial sensor community is given preference over
        general technical usage of the terms herein. The criterion for inclusion of
        a term and its definition in this standard is usefulness as related to inertial
        sensor technology. Sponsor Committee AES\/GA - Gyro Accelerometer Panel Learn
        More Status Superseded Standard PAR Approval 1998-12-08 Superseded by 528-2019
        Superseding 528-1994 Board Approval 2001-08-07 History ANSI Approved: 2002-01-02
        Published: 2001-11-29 Reaffirmed: 2007-03-22 Working Group Details Society
        IEEE Aerospace and Electronic Systems Society Learn More Sponsor Committee
        AES\/GA - Gyro Accelerometer Panel Learn More Working Group SENSR_WG - Sensors
        Working Group IEEE Program Manager Dan Perez Contact Working Group Chair Harry
        Davis Active Projects Active Standards Superseded Standards Inactive-Withdrawn
        Standards Inactive-Reserved Standards P1431 Standard for Specifying and Testing
        Coriolis Vibratory Gyros This standard defines requirements and test procedures
        for a single-axis Coriolis vibratory gyro (CVG) for use as a sensor in attitude
        control systems, angular displacement measuring systems, and angular rate
        measuring systems. Informative annexes cover CVG design features and theoretical
        principles of operation. Learn More 1293-2018 IEEE Standard Specification
        Format Guide and Test Procedure for Linear Single-Axis, Nongyroscopic Accelerometers
        The specification and test requirements for a linear, single-axis, nongyroscopic
        accelerometer for use in inertial navigation, guidance, and leveling systems
        are defined. A standard specification guide and a compilation of recommended
        test procedures for such accelerometers are provided. Informative annexes
        are given on the various types of such accelerometers (force or pendulous
        torque rebalance with analog or digital output, vibrating beam, and micromechanical)
        and error effects, on filtering, noise, and transient analysis techniques,
        and on calibration and modeling techniques (multipoint tumble analysis, vibration
        and shock test analyses, and geophysical effects in inertial instrument testing).
        Learn More 1554-2005 IEEE Recommended Practice for Inertial Sensor Test Equipment,
        Instrumentation, Data Acquisition, and Analysis Test equipment, data acquisition
        equipment, instrumentation, test facilities, and data analysis techniques
        used in inertial sensor testing are described in this recommended practice.
        Learn More 528-2019 IEEE Standard for Inertial Sensor Terminology Terms and
        definitions relating to inertial sensors are presented in this standard. Usage
        as understood by the inertial sensor community is given preference over general
        technical usage of the terms herein. The criterion for inclusion of a term
        and its definition in this standard is usefulness as related to inertial sensor
        technology. Learn More 647-2006 IEEE Standard Specification Format Guide and
        Test Procedure for Single-Axis Laser Gyros Specification and test requirements
        for a single-axis ring laser gyro (RLG) for use as a sensor in attitude control
        systems, angular displacement measuring systems, and angular rate measuring
        systems are defined. A standard specification format guide for the preparation
        of a single-axis RLG is provided. A compilation of recommended procedures
        for testing an RLG, derived from those presently used in the industry, is
        also provided. Learn More 813-1988 IEEE Specification Format Guide and Test
        Procedure for Two-Degree-of-Freedom Dynamically Tuned Gyros A format guide
        for the preparation of a two-degree-of-freedom dynamically tuned gyro (DTG)
        specification is given that provides a common ground of terminology and practice
        for manufacturers and users. A compilation of recommended procedures for testing
        a DTG is also given. The requirements and test procedures are defined in terms
        unique to the DTG. They cover applications of the gyro as an angular motion
        sensor in navigation and control systems. They apply to two modes of use:
        (1) as a strap-down sensor in operating environments typical of aircraft and
        missile applications, and (2) as a sensor in gimballed platform applications
        in which the dynamic angular inputs to which the gyro is subjected are benign
        relative to the accuracy required. In the case of the strap-down DTG, the
        characteristics of the external capture loops are considered to the extent
        necessary to define the gyro performance. Learn More 952-2020 IEEE Standard
        for Specifying and Testing Single-Axis Interferometric Fiber Optic Gyros Specification
        and test procedures for a single-axis interferometric fiber optic gyro (IFOG)
        for use as a sensor in attitude control systems, angular displacement measuring
        systems, and angular rate measuring systems are defined. The test procedures
        are derived from those presently used in the industry. Learn More 1293-1998\/Cor
        1-2008 IEEE Standard Specification Format Guide and Test Procedure for Linear,Single-Axis,
        Nongyroscopic Accelerometers Corrigendum 1: Changes to Annex K and Annex L
        Corrigendum to IEEE Std 1293-1998. Specification and test requirements for
        linear, single-axis, nongyroscopic accelerometers for use as a sensor in attitude
        control systems, linear displacement measuring systems, and linear rate measuring
        systems are defined. The specification format guide and test procedure standard
        applies to force-rebalance accelerometers (pendulous or translational proof
        mass), vibrating beam accelerometers (VBAs), and micromechanical accelerometers
        that range from lesser accuracy to high accuracy devices. Learn More 952-1997
        IEEE Standard Specification Format Guide and Test Procedure for Single-Axis
        Interferometric Fiber Optic Gyros Specification and test requirements for
        a single-axis interferometric fiber optic gyro (IFOG) for use as a sensor
        in attitude control systems, angular displacement measuring systems, and angular
        rate measuring systems are defined. A standard specification format guide
        for the preparation of a single-axis IFOG is provided. A compilation of recommended
        procedures for testing a fiber optic gyro, derived from those presently used
        in the industry, is also provided. Learn More 952-1997\/Cor 1-2016 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Axis Interferometric
        Fiber Optic Gyros -- Corrigendum 1: Figure 1 and Subclauses 5.3.4, 8.3, 12.11.4.3.2,
        12.11.4.3.3, 12.11.4.3.4, 12.12.3.1, and 12.12.4.1 Errors identified in IEEE
        Std 952-1997 are corrected in this corrigendum. Corrections are made to Figure
        1 and in subclauses 5.3.4, 8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4, 12.12.3.1,
        and 12.12.4.1. Learn More No Inactive-Withdrawn Standards 1431-2004 IEEE Standard
        Specification Format Guide and Test Procedure for Coriolis Vibratory Gyros
        Specification and test requirements for a single-axis Coriolis vibratory gyro
        (CVG) for use as a sensor in attitude control systems, angular displacement
        measuring systems, and angular rate measuring systems are defined. A stadard
        specification format guide for the preparation of a single-axis CVG is provided.
        A complilation of recommended procedures for testing a CVG, derived from those
        presently used in the industry, is also provided. Informative annexes cover
        CVG design features and theoretical principles of operation. Learn More 1431-2004\/Cor
        1-2008 IEEE Standard Specification Format Guide and Test Procedure for Coriolis
        Vibratory Gyros - Corrigendum 1 Corrigendum to IEEE Std 1431-2004. Learn More
        292-1969 IEEE Specification Format for Single-Degree-of-Freedom Spring-Restrained
        Rate Gyros This specification defines the requirements for a single-degree-of-freedom
        spring-restrained rate gyro for [aircraft, missile, spacecraft,______] applications.
        The rate gyro shall be capable of providing [(dc, ac) voltage outputs proportional
        to angular rate inputs up to______ degrees per second, a switch closure(s)
        at angular rates (exceeding,less than)______ (+,-,u00b1)______ degrees per
        second]. Learn More 293-1969 IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros Recommended rate gyro test procedures derived
        from those currently in use, including test conditions to be considered, are
        compiled. In some cases alternate methods for measuring a performance characteristic
        have been included. This standard is intended to be a guide in the preparation
        of Section 4 of a specification that follows the format of IEEE Std 292, Specification
        Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros. Learn More
        293-1969\/Cor 1-2014 IEEE Standard for IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros -- Corrigendum 1: Table 1 Heading Correction
        to Table 1 on page 14 of IEEE Std 293-1969 Learn More 517-1974 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Degree-of-Freedom
        Rate-Integrating Gyros A specification format guide for the preparation of
        a rate-integrating gyro specification that provides a common meeting ground
        of terminology and practice for manufacturers and users is presented. A compilation
        of recommended procedures for testing a rate-integrating gyro is given. Learn
        More 529-1980 Supplement for Strapdown Applications to IEEE Standard Specification
        Format Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating
        Gyros A specification format guide for the preparation of a rate-integrating
        gyroscope specification is presented. Recommended procedures for testing a
        rate-integrating gyroscope are compiled. This standard, when combined with
        IEEE Std 517-1974 (R1980), defines the requirements and test procedures in
        terms of characteristics unique to the gyroscope or those applications in
        which the dynamic angular inputs are significantly greater than the limitations
        identified in IEEE Std 517. Learn More 529-1980\/Cor 1-2017 IEEE Standard
        Supplement for Strapdown Applications to IEEE Standard Specification Format
        Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating Gyros
        - Corrigendum 1: 3.3.9.2.2, 3.6.4.1.1, 3.6.4.1.2, 6.3, and 10.10.4.1 Corrections
        are made by this corrigendum to material already published in IEEE Std 529-1980.
        Learn More 671-1985 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement A guide is presented for the preparation of a specification
        and test procedure for an inertial angular sensor that provides a common meeting
        ground of terminology and practice for manufacturers and users of an array
        of sensors that have been developed to meet needs not easily met by traditional
        spinning-rotor gyroscopes. A test procedure for verifying that the specifications
        have been met is given. The standard is not intended to compete with existing
        standards for specific devices with highly specific models and error sources,
        such as spring-restrained rate gyros, but to provide a uniform guide for those
        inertial angular sensors that have not been covered elsewhere. Learn More
        671-1985\/Cor 1-2010 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement Corrigendum 1: 4.7.2.6 Short-Term Stability and Annex A Sensor
        Dynamic Block Diagrams IEEE Std 671-1985 provides specifications and test
        requirements for a non-gyroscopic inertial angular sensor that may measure
        angular jerk, acceleration, rate, or displacement with or without response
        down to zero frequency. A standard specification format is provided. A compilation
        of recommended test procedures, derived from those presently used in the industry,
        is also provided. Informative annexes cover design features and theoretical
        principles of operation. This corrigendum makes changes to 4.7.2.6 to delete
        a sentence that does not belong there, to add a subclause that was inadvertently
        left out, and to renumber the existing subclauses. Changes are also being
        made to fix the block diagrams in Annex A, to correct a misspelling of inertia,
        and to add a missing symbol. Learn More 836-2009 IEEE Recommended Practice
        for Precision Centrifuge Testing of Linear Accelerometers This recommended
        practice describes the conduct and analysis of precision tests that are to
        be performed on linear accelerometers using centrifuge techniques. The term
        u201cprecision,u201d in this context, refers to tests that are conducted to
        evaluate accelerometer parameters, as opposed to those conducted to establish
        environmental survivability only. Evaluation may take the form of determining
        the coefficients of the accelerometer''s model equation, except for bias and
        scale factor, which are most accurately determined by static multi-position
        tests. Alternatively, evaluation may only establish that the accelerometer
        output complies with specific error limit criteria. Learn More Facebook Twitter
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        are defined. A standard specification guide and a compilation of recommended
        test procedures for such accelerometers are provided. Informative annexes
        are given on the various types of such accelerometers (force or pendulous
        torque rebalance with analog or digital output, vibrating beam, and micromechanical)
        and error effects, on filtering, noise, and transient analysis techniques,
        and on calibration and modeling techniques (multipoint tumble analysis, vibration
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        industry alliance or other industry organizations, looking to bring forward
        specifications for standards development and market adoption. Facilitating
        collaboration among organizations and individuals as they hone and refine
        their thinking on rapidly changing technologies. Guidelines for practical
        safeguarding during the installation, operation, and maintenance of electric
        supply, communication lines and associated equipment. Assigns and maintains
        unique identifiers and unambiguous names to objects for those wishing to register
        them. Program for policymakers providing tailored standards information, access
        to the IEEE SA standardization ecosystem, and standardization resources. Providing
        global standards professionals the opportunity to observe the IEEE standards
        development process and learn about technical areas of interest. See all the
        programs, products, and services that IEEE SA has to offer. Focuses Artificial
        Intelligence Systems (AIS) Connectivity & Telecom Energy Foundational Technologies
        Healthcare and Life Sciences Mobility Government Engagement Strategic focuses
        and industries where IEEE SA is raising the world\u2019s standards. Developing
        accessible and sustainable approaches and solutions for practical application
        of AIS principles and frameworks. Advancing robust, responsible, and affordable
        connectivity. Enabling sustainable, efficient, and accessible energy through
        technological advances on a global scale. Working to standardize seamless
        and ubiquitous connectivity across all applications of connected technologies.
        Focused on enabling affordable healthcare, access to medicine, and innovation
        to improve overall global wellness. Working to help the evolving mobility
        ecosystem address some of its greatest business opportunities that have the
        potential to solve major societal challenges. Building bridges between the
        worlds of technology, standards, and policy making. Get Involved Events IEEE
        SA Membership How to Get Involved Learn about opportunities to engage with
        IEEE SA. Join us at upcoming virtual or in-person events. Flexible membership
        options that offer enhanced participation in IEEE SA activities, standards
        development, and governance. There are many opportunities for participation,
        find the right one for you. Resources Training & Development News IEEE SA
        Newsletter Standards Store Training and communication resources to stay connected.
        Individual and organizational effectiveness program to enable the success
        of our vital volunteers. Read the latest news on IEEE SA. Subscribe to our
        newsletter and keep up to date on the latest standards, event, and activities.
        Get the standards you need. Select from individual standards or standards
        bundles. MAC Address Active Standard IEEE 1293-2018 IEEE Standard Specification
        Format Guide and Test Procedure for Linear Single-Axis, Nongyroscopic Accelerometers
        Purchase Access via Subscription Home Standards IEEE 1293-2018 The specification
        and test requirements for a linear, single-axis, nongyroscopic accelerometer
        for use in inertial navigation, guidance, and leveling systems are defined.
        A standard specification guide and a compilation of recommended test procedures
        for such accelerometers are provided. Informative annexes are given on the
        various types of such accelerometers (force or pendulous torque rebalance
        with analog or digital output, vibrating beam, and micromechanical) and error
        effects, on filtering, noise, and transient analysis techniques, and on calibration
        and modeling techniques (multipoint tumble analysis, vibration and shock test
        analyses, and geophysical effects in inertial instrument testing). Sponsor
        Committee AES\/GA - Gyro Accelerometer Panel Learn More Status Active Standard
        PAR Approval 2012-11-02 Superseding 1293-1998 Board Approval 2018-10-23 History
        Published: 2019-02-28 Working Group Details Society IEEE Aerospace and Electronic
        Systems Society Learn More Sponsor Committee AES\/GA - Gyro Accelerometer
        Panel Learn More Working Group SENSR_WG - Sensors Working Group Learn More
        IEEE Program Manager Dan Perez Contact Working Group Chair Harry Davis Active
        Projects Active Standards Superseded Standards Inactive-Withdrawn Standards
        Inactive-Reserved Standards P1431 Standard for Specifying and Testing Coriolis
        Vibratory Gyros This standard defines requirements and test procedures for
        a single-axis Coriolis vibratory gyro (CVG) for use as a sensor in attitude
        control systems, angular displacement measuring systems, and angular rate
        measuring systems. Informative annexes cover CVG design features and theoretical
        principles of operation. Learn More 1554-2005 IEEE Recommended Practice for
        Inertial Sensor Test Equipment, Instrumentation, Data Acquisition, and Analysis
        Test equipment, data acquisition equipment, instrumentation, test facilities,
        and data analysis techniques used in inertial sensor testing are described
        in this recommended practice. Learn More 528-2019 IEEE Standard for Inertial
        Sensor Terminology Terms and definitions relating to inertial sensors are
        presented in this standard. Usage as understood by the inertial sensor community
        is given preference over general technical usage of the terms herein. The
        criterion for inclusion of a term and its definition in this standard is usefulness
        as related to inertial sensor technology. Learn More 647-2006 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Axis Laser Gyros
        Specification and test requirements for a single-axis ring laser gyro (RLG)
        for use as a sensor in attitude control systems, angular displacement measuring
        systems, and angular rate measuring systems are defined. A standard specification
        format guide for the preparation of a single-axis RLG is provided. A compilation
        of recommended procedures for testing an RLG, derived from those presently
        used in the industry, is also provided. Learn More 813-1988 IEEE Specification
        Format Guide and Test Procedure for Two-Degree-of-Freedom Dynamically Tuned
        Gyros A format guide for the preparation of a two-degree-of-freedom dynamically
        tuned gyro (DTG) specification is given that provides a common ground of terminology
        and practice for manufacturers and users. A compilation of recommended procedures
        for testing a DTG is also given. The requirements and test procedures are
        defined in terms unique to the DTG. They cover applications of the gyro as
        an angular motion sensor in navigation and control systems. They apply to
        two modes of use: (1) as a strap-down sensor in operating environments typical
        of aircraft and missile applications, and (2) as a sensor in gimballed platform
        applications in which the dynamic angular inputs to which the gyro is subjected
        are benign relative to the accuracy required. In the case of the strap-down
        DTG, the characteristics of the external capture loops are considered to the
        extent necessary to define the gyro performance. Learn More 952-2020 IEEE
        Standard for Specifying and Testing Single-Axis Interferometric Fiber Optic
        Gyros Specification and test procedures for a single-axis interferometric
        fiber optic gyro (IFOG) for use as a sensor in attitude control systems, angular
        displacement measuring systems, and angular rate measuring systems are defined.
        The test procedures are derived from those presently used in the industry.
        Learn More 1293-1998\/Cor 1-2008 IEEE Standard Specification Format Guide
        and Test Procedure for Linear,Single-Axis, Nongyroscopic Accelerometers Corrigendum
        1: Changes to Annex K and Annex L Corrigendum to IEEE Std 1293-1998. Specification
        and test requirements for linear, single-axis, nongyroscopic accelerometers
        for use as a sensor in attitude control systems, linear displacement measuring
        systems, and linear rate measuring systems are defined. The specification
        format guide and test procedure standard applies to force-rebalance accelerometers
        (pendulous or translational proof mass), vibrating beam accelerometers (VBAs),
        and micromechanical accelerometers that range from lesser accuracy to high
        accuracy devices. Learn More 528-2001 IEEE Standard for Inertial Sensor Terminology
        Terms and definitions relating to inertial senors are presented in this standard.
        Usage as understood by the inertial sensor community is given preference over
        general technical usage of the terms herein. The criterion for inclusion of
        a term and its definition in this standard is usefulness as related to inertial
        sensor technology. Learn More 952-1997 IEEE Standard Specification Format
        Guide and Test Procedure for Single-Axis Interferometric Fiber Optic Gyros
        Specification and test requirements for a single-axis interferometric fiber
        optic gyro (IFOG) for use as a sensor in attitude control systems, angular
        displacement measuring systems, and angular rate measuring systems are defined.
        A standard specification format guide for the preparation of a single-axis
        IFOG is provided. A compilation of recommended procedures for testing a fiber
        optic gyro, derived from those presently used in the industry, is also provided.
        Learn More 952-1997\/Cor 1-2016 IEEE Standard Specification Format Guide and
        Test Procedure for Single-Axis Interferometric Fiber Optic Gyros -- Corrigendum
        1: Figure 1 and Subclauses 5.3.4, 8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4,
        12.12.3.1, and 12.12.4.1 Errors identified in IEEE Std 952-1997 are corrected
        in this corrigendum. Corrections are made to Figure 1 and in subclauses 5.3.4,
        8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4, 12.12.3.1, and 12.12.4.1. Learn
        More No Inactive-Withdrawn Standards 1431-2004 IEEE Standard Specification
        Format Guide and Test Procedure for Coriolis Vibratory Gyros Specification
        and test requirements for a single-axis Coriolis vibratory gyro (CVG) for
        use as a sensor in attitude control systems, angular displacement measuring
        systems, and angular rate measuring systems are defined. A stadard specification
        format guide for the preparation of a single-axis CVG is provided. A complilation
        of recommended procedures for testing a CVG, derived from those presently
        used in the industry, is also provided. Informative annexes cover CVG design
        features and theoretical principles of operation. Learn More 1431-2004\/Cor
        1-2008 IEEE Standard Specification Format Guide and Test Procedure for Coriolis
        Vibratory Gyros - Corrigendum 1 Corrigendum to IEEE Std 1431-2004. Learn More
        292-1969 IEEE Specification Format for Single-Degree-of-Freedom Spring-Restrained
        Rate Gyros This specification defines the requirements for a single-degree-of-freedom
        spring-restrained rate gyro for [aircraft, missile, spacecraft,______] applications.
        The rate gyro shall be capable of providing [(dc, ac) voltage outputs proportional
        to angular rate inputs up to______ degrees per second, a switch closure(s)
        at angular rates (exceeding,less than)______ (+,-,u00b1)______ degrees per
        second]. Learn More 293-1969 IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros Recommended rate gyro test procedures derived
        from those currently in use, including test conditions to be considered, are
        compiled. In some cases alternate methods for measuring a performance characteristic
        have been included. This standard is intended to be a guide in the preparation
        of Section 4 of a specification that follows the format of IEEE Std 292, Specification
        Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros. Learn More
        293-1969\/Cor 1-2014 IEEE Standard for IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros -- Corrigendum 1: Table 1 Heading Correction
        to Table 1 on page 14 of IEEE Std 293-1969 Learn More 517-1974 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Degree-of-Freedom
        Rate-Integrating Gyros A specification format guide for the preparation of
        a rate-integrating gyro specification that provides a common meeting ground
        of terminology and practice for manufacturers and users is presented. A compilation
        of recommended procedures for testing a rate-integrating gyro is given. Learn
        More 529-1980 Supplement for Strapdown Applications to IEEE Standard Specification
        Format Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating
        Gyros A specification format guide for the preparation of a rate-integrating
        gyroscope specification is presented. Recommended procedures for testing a
        rate-integrating gyroscope are compiled. This standard, when combined with
        IEEE Std 517-1974 (R1980), defines the requirements and test procedures in
        terms of characteristics unique to the gyroscope or those applications in
        which the dynamic angular inputs are significantly greater than the limitations
        identified in IEEE Std 517. Learn More 529-1980\/Cor 1-2017 IEEE Standard
        Supplement for Strapdown Applications to IEEE Standard Specification Format
        Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating Gyros
        - Corrigendum 1: 3.3.9.2.2, 3.6.4.1.1, 3.6.4.1.2, 6.3, and 10.10.4.1 Corrections
        are made by this corrigendum to material already published in IEEE Std 529-1980.
        Learn More 671-1985 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement A guide is presented for the preparation of a specification
        and test procedure for an inertial angular sensor that provides a common meeting
        ground of terminology and practice for manufacturers and users of an array
        of sensors that have been developed to meet needs not easily met by traditional
        spinning-rotor gyroscopes. A test procedure for verifying that the specifications
        have been met is given. The standard is not intended to compete with existing
        standards for specific devices with highly specific models and error sources,
        such as spring-restrained rate gyros, but to provide a uniform guide for those
        inertial angular sensors that have not been covered elsewhere. Learn More
        671-1985\/Cor 1-2010 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement Corrigendum 1: 4.7.2.6 Short-Term Stability and Annex A Sensor
        Dynamic Block Diagrams IEEE Std 671-1985 provides specifications and test
        requirements for a non-gyroscopic inertial angular sensor that may measure
        angular jerk, acceleration, rate, or displacement with or without response
        down to zero frequency. A standard specification format is provided. A compilation
        of recommended test procedures, derived from those presently used in the industry,
        is also provided. Informative annexes cover design features and theoretical
        principles of operation. This corrigendum makes changes to 4.7.2.6 to delete
        a sentence that does not belong there, to add a subclause that was inadvertently
        left out, and to renumber the existing subclauses. Changes are also being
        made to fix the block diagrams in Annex A, to correct a misspelling of inertia,
        and to add a missing symbol. Learn More 836-2009 IEEE Recommended Practice
        for Precision Centrifuge Testing of Linear Accelerometers This recommended
        practice describes the conduct and analysis of precision tests that are to
        be performed on linear accelerometers using centrifuge techniques. The term
        u201cprecision,u201d in this context, refers to tests that are conducted to
        evaluate accelerometer parameters, as opposed to those conducted to establish
        environmental survivability only. Evaluation may take the form of determining
        the coefficients of the accelerometer''s model equation, except for bias and
        scale factor, which are most accurately determined by static multi-position
        tests. Alternatively, evaluation may only establish that the accelerometer
        output complies with specific error limit criteria. Learn More Facebook Twitter
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        up for our monthly newsletter to learn about new developments, including resources,
        insights and more. "}},{"id":"3fc0c715deec41762b0998457967e6feb2e27945928e2467bfb2f2923a4976a89ba4567595790403dcd8f650e2906a80c9826aa4cd52d5af78f7195707928ce0","fields":{"meta_keywords_la":["Aerospace
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        SA - IEEE 517-1974","doc_text_t":"IEEE SA - IEEE 517-1974 IEEE.org IEEE Xplore
        Digital Library IEEE Standards IEEE Spectrum More Sites eTools Standards Access
        Standards Search Standards Standards Development Standards Adoption Choose
        from the many ways to access IEEE SA Standards. Choose from individual or
        organizational access options to get the standards you need. Find the standards
        you\u2019re looking for. Get involved in the development of market-driven
        technology standards with proven expertise and dedicated support. Learn more
        about how to adopt IEEE standards. Products & Programs Alliance Management
        Services Conformity Assessment & Certification IEEE SA Open Source Industry
        Affiliate Network (IAN) Industry Connections The National Electrical Safety
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        on Standards Standards Fellowship All Products & Programs Full ecosystem of
        standards-related solutions to help drive awareness, activation, and adoption.
        Providing support services to help manage the day-to-day operations of industry
        groups, allowing key stakeholders to focus on the work at hand. Focused on
        development and implementation of rigorous conformity assessment programs
        designed to help accelerate market adoption, reduce costs and more. A vendor-neutral,
        inclusive, open source platform\u2014for all, from independent software developers
        and start ups to industry, academic and research institutions. Open to consortia,
        industry alliance or other industry organizations, looking to bring forward
        specifications for standards development and market adoption. Facilitating
        collaboration among organizations and individuals as they hone and refine
        their thinking on rapidly changing technologies. Guidelines for practical
        safeguarding during the installation, operation, and maintenance of electric
        supply, communication lines and associated equipment. Assigns and maintains
        unique identifiers and unambiguous names to objects for those wishing to register
        them. Program for policymakers providing tailored standards information, access
        to the IEEE SA standardization ecosystem, and standardization resources. Providing
        global standards professionals the opportunity to observe the IEEE standards
        development process and learn about technical areas of interest. See all the
        programs, products, and services that IEEE SA has to offer. Focuses Artificial
        Intelligence Systems (AIS) Connectivity & Telecom Energy Foundational Technologies
        Healthcare and Life Sciences Mobility Government Engagement Strategic focuses
        and industries where IEEE SA is raising the world\u2019s standards. Developing
        accessible and sustainable approaches and solutions for practical application
        of AIS principles and frameworks. Advancing robust, responsible, and affordable
        connectivity. Enabling sustainable, efficient, and accessible energy through
        technological advances on a global scale. Working to standardize seamless
        and ubiquitous connectivity across all applications of connected technologies.
        Focused on enabling affordable healthcare, access to medicine, and innovation
        to improve overall global wellness. Working to help the evolving mobility
        ecosystem address some of its greatest business opportunities that have the
        potential to solve major societal challenges. Building bridges between the
        worlds of technology, standards, and policy making. Get Involved Events IEEE
        SA Membership How to Get Involved Learn about opportunities to engage with
        IEEE SA. Join us at upcoming virtual or in-person events. Flexible membership
        options that offer enhanced participation in IEEE SA activities, standards
        development, and governance. There are many opportunities for participation,
        find the right one for you. Resources Training & Development News IEEE SA
        Newsletter Standards Store Training and communication resources to stay connected.
        Individual and organizational effectiveness program to enable the success
        of our vital volunteers. Read the latest news on IEEE SA. Subscribe to our
        newsletter and keep up to date on the latest standards, event, and activities.
        Get the standards you need. Select from individual standards or standards
        bundles. MAC Address Inactive-Reserved Standard IEEE 517-1974 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Degree-of-Freedom
        Rate-Integrating Gyros Purchase Access via Subscription Home Standards IEEE
        517-1974 A specification format guide for the preparation of a rate-integrating
        gyro specification that provides a common meeting ground of terminology and
        practice for manufacturers and users is presented. A compilation of recommended
        procedures for testing a rate-integrating gyro is given. Sponsor Committee
        AES\/GA - Gyro Accelerometer Panel Learn More Status Inactive-Reserved Standard
        Board Approval 1973-12-13 History ANSI Approved: 1983-05-30 Published: 1974-10-17
        Reaffirmed: 2010-09-30 Inactivated Date: 2021-03-25 Additional Resources Erratas
        517-1974_errata.pdf Working Group Details Society IEEE Aerospace and Electronic
        Systems Society Learn More Sponsor Committee AES\/GA - Gyro Accelerometer
        Panel Learn More Working Group SENSR_WG - Sensors Working Group Learn More
        IEEE Program Manager Dan Perez Contact Working Group Chair Harry Davis Active
        Projects Active Standards Superseded Standards Inactive-Withdrawn Standards
        Inactive-Reserved Standards P1431 Standard for Specifying and Testing Coriolis
        Vibratory Gyros This standard defines requirements and test procedures for
        a single-axis Coriolis vibratory gyro (CVG) for use as a sensor in attitude
        control systems, angular displacement measuring systems, and angular rate
        measuring systems. Informative annexes cover CVG design features and theoretical
        principles of operation. Learn More 1293-2018 IEEE Standard Specification
        Format Guide and Test Procedure for Linear Single-Axis, Nongyroscopic Accelerometers
        The specification and test requirements for a linear, single-axis, nongyroscopic
        accelerometer for use in inertial navigation, guidance, and leveling systems
        are defined. A standard specification guide and a compilation of recommended
        test procedures for such accelerometers are provided. Informative annexes
        are given on the various types of such accelerometers (force or pendulous
        torque rebalance with analog or digital output, vibrating beam, and micromechanical)
        and error effects, on filtering, noise, and transient analysis techniques,
        and on calibration and modeling techniques (multipoint tumble analysis, vibration
        and shock test analyses, and geophysical effects in inertial instrument testing).
        Learn More 1554-2005 IEEE Recommended Practice for Inertial Sensor Test Equipment,
        Instrumentation, Data Acquisition, and Analysis Test equipment, data acquisition
        equipment, instrumentation, test facilities, and data analysis techniques
        used in inertial sensor testing are described in this recommended practice.
        Learn More 528-2019 IEEE Standard for Inertial Sensor Terminology Terms and
        definitions relating to inertial sensors are presented in this standard. Usage
        as understood by the inertial sensor community is given preference over general
        technical usage of the terms herein. The criterion for inclusion of a term
        and its definition in this standard is usefulness as related to inertial sensor
        technology. Learn More 647-2006 IEEE Standard Specification Format Guide and
        Test Procedure for Single-Axis Laser Gyros Specification and test requirements
        for a single-axis ring laser gyro (RLG) for use as a sensor in attitude control
        systems, angular displacement measuring systems, and angular rate measuring
        systems are defined. A standard specification format guide for the preparation
        of a single-axis RLG is provided. A compilation of recommended procedures
        for testing an RLG, derived from those presently used in the industry, is
        also provided. Learn More 813-1988 IEEE Specification Format Guide and Test
        Procedure for Two-Degree-of-Freedom Dynamically Tuned Gyros A format guide
        for the preparation of a two-degree-of-freedom dynamically tuned gyro (DTG)
        specification is given that provides a common ground of terminology and practice
        for manufacturers and users. A compilation of recommended procedures for testing
        a DTG is also given. The requirements and test procedures are defined in terms
        unique to the DTG. They cover applications of the gyro as an angular motion
        sensor in navigation and control systems. They apply to two modes of use:
        (1) as a strap-down sensor in operating environments typical of aircraft and
        missile applications, and (2) as a sensor in gimballed platform applications
        in which the dynamic angular inputs to which the gyro is subjected are benign
        relative to the accuracy required. In the case of the strap-down DTG, the
        characteristics of the external capture loops are considered to the extent
        necessary to define the gyro performance. Learn More 952-2020 IEEE Standard
        for Specifying and Testing Single-Axis Interferometric Fiber Optic Gyros Specification
        and test procedures for a single-axis interferometric fiber optic gyro (IFOG)
        for use as a sensor in attitude control systems, angular displacement measuring
        systems, and angular rate measuring systems are defined. The test procedures
        are derived from those presently used in the industry. Learn More 1293-1998\/Cor
        1-2008 IEEE Standard Specification Format Guide and Test Procedure for Linear,Single-Axis,
        Nongyroscopic Accelerometers Corrigendum 1: Changes to Annex K and Annex L
        Corrigendum to IEEE Std 1293-1998. Specification and test requirements for
        linear, single-axis, nongyroscopic accelerometers for use as a sensor in attitude
        control systems, linear displacement measuring systems, and linear rate measuring
        systems are defined. The specification format guide and test procedure standard
        applies to force-rebalance accelerometers (pendulous or translational proof
        mass), vibrating beam accelerometers (VBAs), and micromechanical accelerometers
        that range from lesser accuracy to high accuracy devices. Learn More 528-2001
        IEEE Standard for Inertial Sensor Terminology Terms and definitions relating
        to inertial senors are presented in this standard. Usage as understood by
        the inertial sensor community is given preference over general technical usage
        of the terms herein. The criterion for inclusion of a term and its definition
        in this standard is usefulness as related to inertial sensor technology. Learn
        More 952-1997 IEEE Standard Specification Format Guide and Test Procedure
        for Single-Axis Interferometric Fiber Optic Gyros Specification and test requirements
        for a single-axis interferometric fiber optic gyro (IFOG) for use as a sensor
        in attitude control systems, angular displacement measuring systems, and angular
        rate measuring systems are defined. A standard specification format guide
        for the preparation of a single-axis IFOG is provided. A compilation of recommended
        procedures for testing a fiber optic gyro, derived from those presently used
        in the industry, is also provided. Learn More 952-1997\/Cor 1-2016 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Axis Interferometric
        Fiber Optic Gyros -- Corrigendum 1: Figure 1 and Subclauses 5.3.4, 8.3, 12.11.4.3.2,
        12.11.4.3.3, 12.11.4.3.4, 12.12.3.1, and 12.12.4.1 Errors identified in IEEE
        Std 952-1997 are corrected in this corrigendum. Corrections are made to Figure
        1 and in subclauses 5.3.4, 8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4, 12.12.3.1,
        and 12.12.4.1. Learn More No Inactive-Withdrawn Standards 1431-2004 IEEE Standard
        Specification Format Guide and Test Procedure for Coriolis Vibratory Gyros
        Specification and test requirements for a single-axis Coriolis vibratory gyro
        (CVG) for use as a sensor in attitude control systems, angular displacement
        measuring systems, and angular rate measuring systems are defined. A stadard
        specification format guide for the preparation of a single-axis CVG is provided.
        A complilation of recommended procedures for testing a CVG, derived from those
        presently used in the industry, is also provided. Informative annexes cover
        CVG design features and theoretical principles of operation. Learn More 1431-2004\/Cor
        1-2008 IEEE Standard Specification Format Guide and Test Procedure for Coriolis
        Vibratory Gyros - Corrigendum 1 Corrigendum to IEEE Std 1431-2004. Learn More
        292-1969 IEEE Specification Format for Single-Degree-of-Freedom Spring-Restrained
        Rate Gyros This specification defines the requirements for a single-degree-of-freedom
        spring-restrained rate gyro for [aircraft, missile, spacecraft,______] applications.
        The rate gyro shall be capable of providing [(dc, ac) voltage outputs proportional
        to angular rate inputs up to______ degrees per second, a switch closure(s)
        at angular rates (exceeding,less than)______ (+,-,u00b1)______ degrees per
        second]. Learn More 293-1969 IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros Recommended rate gyro test procedures derived
        from those currently in use, including test conditions to be considered, are
        compiled. In some cases alternate methods for measuring a performance characteristic
        have been included. This standard is intended to be a guide in the preparation
        of Section 4 of a specification that follows the format of IEEE Std 292, Specification
        Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros. Learn More
        293-1969\/Cor 1-2014 IEEE Standard for IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros -- Corrigendum 1: Table 1 Heading Correction
        to Table 1 on page 14 of IEEE Std 293-1969 Learn More 529-1980 Supplement
        for Strapdown Applications to IEEE Standard Specification Format Guide and
        Test Procedure for Single-Degree-of-Freedom Rate-Integrating Gyros A specification
        format guide for the preparation of a rate-integrating gyroscope specification
        is presented. Recommended procedures for testing a rate-integrating gyroscope
        are compiled. This standard, when combined with IEEE Std 517-1974 (R1980),
        defines the requirements and test procedures in terms of characteristics unique
        to the gyroscope or those applications in which the dynamic angular inputs
        are significantly greater than the limitations identified in IEEE Std 517.
        Learn More 529-1980\/Cor 1-2017 IEEE Standard Supplement for Strapdown Applications
        to IEEE Standard Specification Format Guide and Test Procedure for Single-Degree-of-Freedom
        Rate-Integrating Gyros - Corrigendum 1: 3.3.9.2.2, 3.6.4.1.1, 3.6.4.1.2, 6.3,
        and 10.10.4.1 Corrections are made by this corrigendum to material already
        published in IEEE Std 529-1980. Learn More 671-1985 IEEE Standard Specification
        Format Guide and Test Procedure for Nongyroscopic Inertial Angular Sensors:
        Jerk, Acceleration, Velocity, and Displacement A guide is presented for the
        preparation of a specification and test procedure for an inertial angular
        sensor that provides a common meeting ground of terminology and practice for
        manufacturers and users of an array of sensors that have been developed to
        meet needs not easily met by traditional spinning-rotor gyroscopes. A test
        procedure for verifying that the specifications have been met is given. The
        standard is not intended to compete with existing standards for specific devices
        with highly specific models and error sources, such as spring-restrained rate
        gyros, but to provide a uniform guide for those inertial angular sensors that
        have not been covered elsewhere. Learn More 671-1985\/Cor 1-2010 IEEE Standard
        Specification Format Guide and Test Procedure for Nongyroscopic Inertial Angular
        Sensors: Jerk, Acceleration, Velocity, and Displacement Corrigendum 1: 4.7.2.6
        Short-Term Stability and Annex A Sensor Dynamic Block Diagrams IEEE Std 671-1985
        provides specifications and test requirements for a non-gyroscopic inertial
        angular sensor that may measure angular jerk, acceleration, rate, or displacement
        with or without response down to zero frequency. A standard specification
        format is provided. A compilation of recommended test procedures, derived
        from those presently used in the industry, is also provided. Informative annexes
        cover design features and theoretical principles of operation. This corrigendum
        makes changes to 4.7.2.6 to delete a sentence that does not belong there,
        to add a subclause that was inadvertently left out, and to renumber the existing
        subclauses. Changes are also being made to fix the block diagrams in Annex
        A, to correct a misspelling of inertia, and to add a missing symbol. Learn
        More 836-2009 IEEE Recommended Practice for Precision Centrifuge Testing of
        Linear Accelerometers This recommended practice describes the conduct and
        analysis of precision tests that are to be performed on linear accelerometers
        using centrifuge techniques. The term u201cprecision,u201d in this context,
        refers to tests that are conducted to evaluate accelerometer parameters, as
        opposed to those conducted to establish environmental survivability only.
        Evaluation may take the form of determining the coefficients of the accelerometer''s
        model equation, except for bias and scale factor, which are most accurately
        determined by static multi-position tests. Alternatively, evaluation may only
        establish that the accelerometer output complies with specific error limit
        criteria. Learn More Facebook Twitter LinkedIn Instagram YouTube IEEE SA About
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        of humanity. Subscribe Newswire Sign up for our monthly newsletter to learn
        about new developments, including resources, insights and more. "}},{"id":"a674d52e409083c2a3e8a7cd0e76347d823ce81a54877277a2405ec1c0873b970f04bfcd394962998a1e67920381e7469c4a930cc7428a98b5d8c7018f5432c1","fields":{"meta_keywords_la":["Aerospace
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        gyroscope are compiled. This standard, when combined with IEEE Std 517-1974
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        unique to the gyroscope or those applications in which the dynamic angular
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        Digital Library IEEE Standards IEEE Spectrum More Sites eTools Standards Access
        Standards Search Standards Standards Development Standards Adoption Choose
        from the many ways to access IEEE SA Standards. Choose from individual or
        organizational access options to get the standards you need. Find the standards
        you\u2019re looking for. Get involved in the development of market-driven
        technology standards with proven expertise and dedicated support. Learn more
        about how to adopt IEEE standards. Products & Programs Alliance Management
        Services Conformity Assessment & Certification IEEE SA Open Source Industry
        Affiliate Network (IAN) Industry Connections The National Electrical Safety
        Code\u00ae (NESC\u00ae) Registration Authority Government Engagement Program
        on Standards Standards Fellowship All Products & Programs Full ecosystem of
        standards-related solutions to help drive awareness, activation, and adoption.
        Providing support services to help manage the day-to-day operations of industry
        groups, allowing key stakeholders to focus on the work at hand. Focused on
        development and implementation of rigorous conformity assessment programs
        designed to help accelerate market adoption, reduce costs and more. A vendor-neutral,
        inclusive, open source platform\u2014for all, from independent software developers
        and start ups to industry, academic and research institutions. Open to consortia,
        industry alliance or other industry organizations, looking to bring forward
        specifications for standards development and market adoption. Facilitating
        collaboration among organizations and individuals as they hone and refine
        their thinking on rapidly changing technologies. Guidelines for practical
        safeguarding during the installation, operation, and maintenance of electric
        supply, communication lines and associated equipment. Assigns and maintains
        unique identifiers and unambiguous names to objects for those wishing to register
        them. Program for policymakers providing tailored standards information, access
        to the IEEE SA standardization ecosystem, and standardization resources. Providing
        global standards professionals the opportunity to observe the IEEE standards
        development process and learn about technical areas of interest. See all the
        programs, products, and services that IEEE SA has to offer. Focuses Artificial
        Intelligence Systems (AIS) Connectivity & Telecom Energy Foundational Technologies
        Healthcare and Life Sciences Mobility Government Engagement Strategic focuses
        and industries where IEEE SA is raising the world\u2019s standards. Developing
        accessible and sustainable approaches and solutions for practical application
        of AIS principles and frameworks. Advancing robust, responsible, and affordable
        connectivity. Enabling sustainable, efficient, and accessible energy through
        technological advances on a global scale. Working to standardize seamless
        and ubiquitous connectivity across all applications of connected technologies.
        Focused on enabling affordable healthcare, access to medicine, and innovation
        to improve overall global wellness. Working to help the evolving mobility
        ecosystem address some of its greatest business opportunities that have the
        potential to solve major societal challenges. Building bridges between the
        worlds of technology, standards, and policy making. Get Involved Events IEEE
        SA Membership How to Get Involved Learn about opportunities to engage with
        IEEE SA. Join us at upcoming virtual or in-person events. Flexible membership
        options that offer enhanced participation in IEEE SA activities, standards
        development, and governance. There are many opportunities for participation,
        find the right one for you. Resources Training & Development News IEEE SA
        Newsletter Standards Store Training and communication resources to stay connected.
        Individual and organizational effectiveness program to enable the success
        of our vital volunteers. Read the latest news on IEEE SA. Subscribe to our
        newsletter and keep up to date on the latest standards, event, and activities.
        Get the standards you need. Select from individual standards or standards
        bundles. MAC Address Inactive-Reserved Standard IEEE 529-1980 Supplement for
        Strapdown Applications to IEEE Standard Specification Format Guide and Test
        Procedure for Single-Degree-of-Freedom Rate-Integrating Gyros Purchase Access
        via Subscription Home Standards IEEE 529-1980 A specification format guide
        for the preparation of a rate-integrating gyroscope specification is presented.
        Recommended procedures for testing a rate-integrating gyroscope are compiled.
        This standard, when combined with IEEE Std 517-1974 (R1980), defines the requirements
        and test procedures in terms of characteristics unique to the gyroscope or
        those applications in which the dynamic angular inputs are significantly greater
        than the limitations identified in IEEE Std 517. Sponsor Committee AES\/GA
        - Gyro Accelerometer Panel Learn More Status Inactive-Reserved Standard Corrigendum
        529-1980\/Cor 1-2017 Board Approval 1979-09-27 History ANSI Approved: 1983-05-05
        Published: 1981-01-29 Reaffirmed: 2010-09-30 Inactivated Date: 2021-03-25
        Additional Resources Erratas 529-1980_errata.pdf Working Group Details Society
        IEEE Aerospace and Electronic Systems Society Learn More Sponsor Committee
        AES\/GA - Gyro Accelerometer Panel Learn More Working Group SENSR_WG - Sensors
        Working Group Learn More IEEE Program Manager Dan Perez Contact Working Group
        Chair Harry Davis Active Projects Active Standards Superseded Standards Inactive-Withdrawn
        Standards Inactive-Reserved Standards P1431 Standard for Specifying and Testing
        Coriolis Vibratory Gyros This standard defines requirements and test procedures
        for a single-axis Coriolis vibratory gyro (CVG) for use as a sensor in attitude
        control systems, angular displacement measuring systems, and angular rate
        measuring systems. Informative annexes cover CVG design features and theoretical
        principles of operation. Learn More 1293-2018 IEEE Standard Specification
        Format Guide and Test Procedure for Linear Single-Axis, Nongyroscopic Accelerometers
        The specification and test requirements for a linear, single-axis, nongyroscopic
        accelerometer for use in inertial navigation, guidance, and leveling systems
        are defined. A standard specification guide and a compilation of recommended
        test procedures for such accelerometers are provided. Informative annexes
        are given on the various types of such accelerometers (force or pendulous
        torque rebalance with analog or digital output, vibrating beam, and micromechanical)
        and error effects, on filtering, noise, and transient analysis techniques,
        and on calibration and modeling techniques (multipoint tumble analysis, vibration
        and shock test analyses, and geophysical effects in inertial instrument testing).
        Learn More 1554-2005 IEEE Recommended Practice for Inertial Sensor Test Equipment,
        Instrumentation, Data Acquisition, and Analysis Test equipment, data acquisition
        equipment, instrumentation, test facilities, and data analysis techniques
        used in inertial sensor testing are described in this recommended practice.
        Learn More 528-2019 IEEE Standard for Inertial Sensor Terminology Terms and
        definitions relating to inertial sensors are presented in this standard. Usage
        as understood by the inertial sensor community is given preference over general
        technical usage of the terms herein. The criterion for inclusion of a term
        and its definition in this standard is usefulness as related to inertial sensor
        technology. Learn More 647-2006 IEEE Standard Specification Format Guide and
        Test Procedure for Single-Axis Laser Gyros Specification and test requirements
        for a single-axis ring laser gyro (RLG) for use as a sensor in attitude control
        systems, angular displacement measuring systems, and angular rate measuring
        systems are defined. A standard specification format guide for the preparation
        of a single-axis RLG is provided. A compilation of recommended procedures
        for testing an RLG, derived from those presently used in the industry, is
        also provided. Learn More 813-1988 IEEE Specification Format Guide and Test
        Procedure for Two-Degree-of-Freedom Dynamically Tuned Gyros A format guide
        for the preparation of a two-degree-of-freedom dynamically tuned gyro (DTG)
        specification is given that provides a common ground of terminology and practice
        for manufacturers and users. A compilation of recommended procedures for testing
        a DTG is also given. The requirements and test procedures are defined in terms
        unique to the DTG. They cover applications of the gyro as an angular motion
        sensor in navigation and control systems. They apply to two modes of use:
        (1) as a strap-down sensor in operating environments typical of aircraft and
        missile applications, and (2) as a sensor in gimballed platform applications
        in which the dynamic angular inputs to which the gyro is subjected are benign
        relative to the accuracy required. In the case of the strap-down DTG, the
        characteristics of the external capture loops are considered to the extent
        necessary to define the gyro performance. Learn More 952-2020 IEEE Standard
        for Specifying and Testing Single-Axis Interferometric Fiber Optic Gyros Specification
        and test procedures for a single-axis interferometric fiber optic gyro (IFOG)
        for use as a sensor in attitude control systems, angular displacement measuring
        systems, and angular rate measuring systems are defined. The test procedures
        are derived from those presently used in the industry. Learn More 1293-1998\/Cor
        1-2008 IEEE Standard Specification Format Guide and Test Procedure for Linear,Single-Axis,
        Nongyroscopic Accelerometers Corrigendum 1: Changes to Annex K and Annex L
        Corrigendum to IEEE Std 1293-1998. Specification and test requirements for
        linear, single-axis, nongyroscopic accelerometers for use as a sensor in attitude
        control systems, linear displacement measuring systems, and linear rate measuring
        systems are defined. The specification format guide and test procedure standard
        applies to force-rebalance accelerometers (pendulous or translational proof
        mass), vibrating beam accelerometers (VBAs), and micromechanical accelerometers
        that range from lesser accuracy to high accuracy devices. Learn More 528-2001
        IEEE Standard for Inertial Sensor Terminology Terms and definitions relating
        to inertial senors are presented in this standard. Usage as understood by
        the inertial sensor community is given preference over general technical usage
        of the terms herein. The criterion for inclusion of a term and its definition
        in this standard is usefulness as related to inertial sensor technology. Learn
        More 952-1997 IEEE Standard Specification Format Guide and Test Procedure
        for Single-Axis Interferometric Fiber Optic Gyros Specification and test requirements
        for a single-axis interferometric fiber optic gyro (IFOG) for use as a sensor
        in attitude control systems, angular displacement measuring systems, and angular
        rate measuring systems are defined. A standard specification format guide
        for the preparation of a single-axis IFOG is provided. A compilation of recommended
        procedures for testing a fiber optic gyro, derived from those presently used
        in the industry, is also provided. Learn More 952-1997\/Cor 1-2016 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Axis Interferometric
        Fiber Optic Gyros -- Corrigendum 1: Figure 1 and Subclauses 5.3.4, 8.3, 12.11.4.3.2,
        12.11.4.3.3, 12.11.4.3.4, 12.12.3.1, and 12.12.4.1 Errors identified in IEEE
        Std 952-1997 are corrected in this corrigendum. Corrections are made to Figure
        1 and in subclauses 5.3.4, 8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4, 12.12.3.1,
        and 12.12.4.1. Learn More No Inactive-Withdrawn Standards 1431-2004 IEEE Standard
        Specification Format Guide and Test Procedure for Coriolis Vibratory Gyros
        Specification and test requirements for a single-axis Coriolis vibratory gyro
        (CVG) for use as a sensor in attitude control systems, angular displacement
        measuring systems, and angular rate measuring systems are defined. A stadard
        specification format guide for the preparation of a single-axis CVG is provided.
        A complilation of recommended procedures for testing a CVG, derived from those
        presently used in the industry, is also provided. Informative annexes cover
        CVG design features and theoretical principles of operation. Learn More 1431-2004\/Cor
        1-2008 IEEE Standard Specification Format Guide and Test Procedure for Coriolis
        Vibratory Gyros - Corrigendum 1 Corrigendum to IEEE Std 1431-2004. Learn More
        292-1969 IEEE Specification Format for Single-Degree-of-Freedom Spring-Restrained
        Rate Gyros This specification defines the requirements for a single-degree-of-freedom
        spring-restrained rate gyro for [aircraft, missile, spacecraft,______] applications.
        The rate gyro shall be capable of providing [(dc, ac) voltage outputs proportional
        to angular rate inputs up to______ degrees per second, a switch closure(s)
        at angular rates (exceeding,less than)______ (+,-,u00b1)______ degrees per
        second]. Learn More 293-1969 IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros Recommended rate gyro test procedures derived
        from those currently in use, including test conditions to be considered, are
        compiled. In some cases alternate methods for measuring a performance characteristic
        have been included. This standard is intended to be a guide in the preparation
        of Section 4 of a specification that follows the format of IEEE Std 292, Specification
        Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros. Learn More
        293-1969\/Cor 1-2014 IEEE Standard for IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros -- Corrigendum 1: Table 1 Heading Correction
        to Table 1 on page 14 of IEEE Std 293-1969 Learn More 517-1974 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Degree-of-Freedom
        Rate-Integrating Gyros A specification format guide for the preparation of
        a rate-integrating gyro specification that provides a common meeting ground
        of terminology and practice for manufacturers and users is presented. A compilation
        of recommended procedures for testing a rate-integrating gyro is given. Learn
        More 529-1980\/Cor 1-2017 IEEE Standard Supplement for Strapdown Applications
        to IEEE Standard Specification Format Guide and Test Procedure for Single-Degree-of-Freedom
        Rate-Integrating Gyros - Corrigendum 1: 3.3.9.2.2, 3.6.4.1.1, 3.6.4.1.2, 6.3,
        and 10.10.4.1 Corrections are made by this corrigendum to material already
        published in IEEE Std 529-1980. Learn More 671-1985 IEEE Standard Specification
        Format Guide and Test Procedure for Nongyroscopic Inertial Angular Sensors:
        Jerk, Acceleration, Velocity, and Displacement A guide is presented for the
        preparation of a specification and test procedure for an inertial angular
        sensor that provides a common meeting ground of terminology and practice for
        manufacturers and users of an array of sensors that have been developed to
        meet needs not easily met by traditional spinning-rotor gyroscopes. A test
        procedure for verifying that the specifications have been met is given. The
        standard is not intended to compete with existing standards for specific devices
        with highly specific models and error sources, such as spring-restrained rate
        gyros, but to provide a uniform guide for those inertial angular sensors that
        have not been covered elsewhere. Learn More 671-1985\/Cor 1-2010 IEEE Standard
        Specification Format Guide and Test Procedure for Nongyroscopic Inertial Angular
        Sensors: Jerk, Acceleration, Velocity, and Displacement Corrigendum 1: 4.7.2.6
        Short-Term Stability and Annex A Sensor Dynamic Block Diagrams IEEE Std 671-1985
        provides specifications and test requirements for a non-gyroscopic inertial
        angular sensor that may measure angular jerk, acceleration, rate, or displacement
        with or without response down to zero frequency. A standard specification
        format is provided. A compilation of recommended test procedures, derived
        from those presently used in the industry, is also provided. Informative annexes
        cover design features and theoretical principles of operation. This corrigendum
        makes changes to 4.7.2.6 to delete a sentence that does not belong there,
        to add a subclause that was inadvertently left out, and to renumber the existing
        subclauses. Changes are also being made to fix the block diagrams in Annex
        A, to correct a misspelling of inertia, and to add a missing symbol. Learn
        More 836-2009 IEEE Recommended Practice for Precision Centrifuge Testing of
        Linear Accelerometers This recommended practice describes the conduct and
        analysis of precision tests that are to be performed on linear accelerometers
        using centrifuge techniques. The term u201cprecision,u201d in this context,
        refers to tests that are conducted to evaluate accelerometer parameters, as
        opposed to those conducted to establish environmental survivability only.
        Evaluation may take the form of determining the coefficients of the accelerometer''s
        model equation, except for bias and scale factor, which are most accurately
        determined by static multi-position tests. Alternatively, evaluation may only
        establish that the accelerometer output complies with specific error limit
        criteria. Learn More Facebook Twitter LinkedIn Instagram YouTube IEEE SA About
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        . A not-for-profit organization, IEEE is the world\u2019s largest technical
        professional organization dedicated to advancing technology for the benefit
        of humanity. Subscribe Newswire Sign up for our monthly newsletter to learn
        about new developments, including resources, insights and more. "}},{"id":"5aeb29f1e173895ec06817ac31c30346a78b19bac25d687dbdf0076af571b3da207db66e51b3210131b259579c184141df47fc570ecdb419cc84500bdcf99b6a","fields":{"meta_keywords_la":["Aerospace
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        rate  measuring systems are defined. A standard specification format guide
        for the preparation of a  single-axis RLG is provided. A compilation of recommended
        procedures for testing an RLG,  derived from those presently used in the industry,
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        SA - IEEE 647-2006","doc_text_t":"IEEE SA - IEEE 647-2006 IEEE.org IEEE Xplore
        Digital Library IEEE Standards IEEE Spectrum More Sites eTools Standards Access
        Standards Search Standards Standards Development Standards Adoption Choose
        from the many ways to access IEEE SA Standards. Choose from individual or
        organizational access options to get the standards you need. Find the standards
        you\u2019re looking for. Get involved in the development of market-driven
        technology standards with proven expertise and dedicated support. Learn more
        about how to adopt IEEE standards. Products & Programs Alliance Management
        Services Conformity Assessment & Certification IEEE SA Open Source Industry
        Affiliate Network (IAN) Industry Connections The National Electrical Safety
        Code\u00ae (NESC\u00ae) Registration Authority Government Engagement Program
        on Standards Standards Fellowship All Products & Programs Full ecosystem of
        standards-related solutions to help drive awareness, activation, and adoption.
        Providing support services to help manage the day-to-day operations of industry
        groups, allowing key stakeholders to focus on the work at hand. Focused on
        development and implementation of rigorous conformity assessment programs
        designed to help accelerate market adoption, reduce costs and more. A vendor-neutral,
        inclusive, open source platform\u2014for all, from independent software developers
        and start ups to industry, academic and research institutions. Open to consortia,
        industry alliance or other industry organizations, looking to bring forward
        specifications for standards development and market adoption. Facilitating
        collaboration among organizations and individuals as they hone and refine
        their thinking on rapidly changing technologies. Guidelines for practical
        safeguarding during the installation, operation, and maintenance of electric
        supply, communication lines and associated equipment. Assigns and maintains
        unique identifiers and unambiguous names to objects for those wishing to register
        them. Program for policymakers providing tailored standards information, access
        to the IEEE SA standardization ecosystem, and standardization resources. Providing
        global standards professionals the opportunity to observe the IEEE standards
        development process and learn about technical areas of interest. See all the
        programs, products, and services that IEEE SA has to offer. Focuses Artificial
        Intelligence Systems (AIS) Connectivity & Telecom Energy Foundational Technologies
        Healthcare and Life Sciences Mobility Government Engagement Strategic focuses
        and industries where IEEE SA is raising the world\u2019s standards. Developing
        accessible and sustainable approaches and solutions for practical application
        of AIS principles and frameworks. Advancing robust, responsible, and affordable
        connectivity. Enabling sustainable, efficient, and accessible energy through
        technological advances on a global scale. Working to standardize seamless
        and ubiquitous connectivity across all applications of connected technologies.
        Focused on enabling affordable healthcare, access to medicine, and innovation
        to improve overall global wellness. Working to help the evolving mobility
        ecosystem address some of its greatest business opportunities that have the
        potential to solve major societal challenges. Building bridges between the
        worlds of technology, standards, and policy making. Get Involved Events IEEE
        SA Membership How to Get Involved Learn about opportunities to engage with
        IEEE SA. Join us at upcoming virtual or in-person events. Flexible membership
        options that offer enhanced participation in IEEE SA activities, standards
        development, and governance. There are many opportunities for participation,
        find the right one for you. Resources Training & Development News IEEE SA
        Newsletter Standards Store Training and communication resources to stay connected.
        Individual and organizational effectiveness program to enable the success
        of our vital volunteers. Read the latest news on IEEE SA. Subscribe to our
        newsletter and keep up to date on the latest standards, event, and activities.
        Get the standards you need. Select from individual standards or standards
        bundles. MAC Address Active Standard IEEE 647-2006 IEEE Standard Specification
        Format Guide and Test Procedure for Single-Axis Laser Gyros Purchase Access
        via Subscription Home Standards IEEE 647-2006 Specification and test requirements
        for a single-axis ring laser gyro (RLG) for use as a sensor in attitude control
        systems, angular displacement measuring systems, and angular rate measuring
        systems are defined. A standard specification format guide for the preparation
        of a single-axis RLG is provided. A compilation of recommended procedures
        for testing an RLG, derived from those presently used in the industry, is
        also provided. Sponsor Committee AES\/GA - Gyro Accelerometer Panel Learn
        More Status Active Standard PAR Approval 2001-05-30 Superseding 647-1995 Board
        Approval 2006-03-30 History ANSI Approved: 2006-08-08 ANSI Withdrawn Date:
        2016-08-19 Published: 2006-09-18 Reaffirmed: 2011-12-07 Additional Resources
        Erratas 647-2006_errata.pdf Working Group Details Society IEEE Aerospace and
        Electronic Systems Society Learn More Sponsor Committee AES\/GA - Gyro Accelerometer
        Panel Learn More Working Group SENSR_WG - Sensors Working Group Learn More
        IEEE Program Manager Dan Perez Contact Working Group Chair Harry Davis Active
        Projects Active Standards Superseded Standards Inactive-Withdrawn Standards
        Inactive-Reserved Standards P1431 Standard for Specifying and Testing Coriolis
        Vibratory Gyros This standard defines requirements and test procedures for
        a single-axis Coriolis vibratory gyro (CVG) for use as a sensor in attitude
        control systems, angular displacement measuring systems, and angular rate
        measuring systems. Informative annexes cover CVG design features and theoretical
        principles of operation. Learn More 1293-2018 IEEE Standard Specification
        Format Guide and Test Procedure for Linear Single-Axis, Nongyroscopic Accelerometers
        The specification and test requirements for a linear, single-axis, nongyroscopic
        accelerometer for use in inertial navigation, guidance, and leveling systems
        are defined. A standard specification guide and a compilation of recommended
        test procedures for such accelerometers are provided. Informative annexes
        are given on the various types of such accelerometers (force or pendulous
        torque rebalance with analog or digital output, vibrating beam, and micromechanical)
        and error effects, on filtering, noise, and transient analysis techniques,
        and on calibration and modeling techniques (multipoint tumble analysis, vibration
        and shock test analyses, and geophysical effects in inertial instrument testing).
        Learn More 1554-2005 IEEE Recommended Practice for Inertial Sensor Test Equipment,
        Instrumentation, Data Acquisition, and Analysis Test equipment, data acquisition
        equipment, instrumentation, test facilities, and data analysis techniques
        used in inertial sensor testing are described in this recommended practice.
        Learn More 528-2019 IEEE Standard for Inertial Sensor Terminology Terms and
        definitions relating to inertial sensors are presented in this standard. Usage
        as understood by the inertial sensor community is given preference over general
        technical usage of the terms herein. The criterion for inclusion of a term
        and its definition in this standard is usefulness as related to inertial sensor
        technology. Learn More 813-1988 IEEE Specification Format Guide and Test Procedure
        for Two-Degree-of-Freedom Dynamically Tuned Gyros A format guide for the preparation
        of a two-degree-of-freedom dynamically tuned gyro (DTG) specification is given
        that provides a common ground of terminology and practice for manufacturers
        and users. A compilation of recommended procedures for testing a DTG is also
        given. The requirements and test procedures are defined in terms unique to
        the DTG. They cover applications of the gyro as an angular motion sensor in
        navigation and control systems. They apply to two modes of use: (1) as a strap-down
        sensor in operating environments typical of aircraft and missile applications,
        and (2) as a sensor in gimballed platform applications in which the dynamic
        angular inputs to which the gyro is subjected are benign relative to the accuracy
        required. In the case of the strap-down DTG, the characteristics of the external
        capture loops are considered to the extent necessary to define the gyro performance.
        Learn More 952-2020 IEEE Standard for Specifying and Testing Single-Axis Interferometric
        Fiber Optic Gyros Specification and test procedures for a single-axis interferometric
        fiber optic gyro (IFOG) for use as a sensor in attitude control systems, angular
        displacement measuring systems, and angular rate measuring systems are defined.
        The test procedures are derived from those presently used in the industry.
        Learn More 1293-1998\/Cor 1-2008 IEEE Standard Specification Format Guide
        and Test Procedure for Linear,Single-Axis, Nongyroscopic Accelerometers Corrigendum
        1: Changes to Annex K and Annex L Corrigendum to IEEE Std 1293-1998. Specification
        and test requirements for linear, single-axis, nongyroscopic accelerometers
        for use as a sensor in attitude control systems, linear displacement measuring
        systems, and linear rate measuring systems are defined. The specification
        format guide and test procedure standard applies to force-rebalance accelerometers
        (pendulous or translational proof mass), vibrating beam accelerometers (VBAs),
        and micromechanical accelerometers that range from lesser accuracy to high
        accuracy devices. Learn More 528-2001 IEEE Standard for Inertial Sensor Terminology
        Terms and definitions relating to inertial senors are presented in this standard.
        Usage as understood by the inertial sensor community is given preference over
        general technical usage of the terms herein. The criterion for inclusion of
        a term and its definition in this standard is usefulness as related to inertial
        sensor technology. Learn More 952-1997 IEEE Standard Specification Format
        Guide and Test Procedure for Single-Axis Interferometric Fiber Optic Gyros
        Specification and test requirements for a single-axis interferometric fiber
        optic gyro (IFOG) for use as a sensor in attitude control systems, angular
        displacement measuring systems, and angular rate measuring systems are defined.
        A standard specification format guide for the preparation of a single-axis
        IFOG is provided. A compilation of recommended procedures for testing a fiber
        optic gyro, derived from those presently used in the industry, is also provided.
        Learn More 952-1997\/Cor 1-2016 IEEE Standard Specification Format Guide and
        Test Procedure for Single-Axis Interferometric Fiber Optic Gyros -- Corrigendum
        1: Figure 1 and Subclauses 5.3.4, 8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4,
        12.12.3.1, and 12.12.4.1 Errors identified in IEEE Std 952-1997 are corrected
        in this corrigendum. Corrections are made to Figure 1 and in subclauses 5.3.4,
        8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4, 12.12.3.1, and 12.12.4.1. Learn
        More No Inactive-Withdrawn Standards 1431-2004 IEEE Standard Specification
        Format Guide and Test Procedure for Coriolis Vibratory Gyros Specification
        and test requirements for a single-axis Coriolis vibratory gyro (CVG) for
        use as a sensor in attitude control systems, angular displacement measuring
        systems, and angular rate measuring systems are defined. A stadard specification
        format guide for the preparation of a single-axis CVG is provided. A complilation
        of recommended procedures for testing a CVG, derived from those presently
        used in the industry, is also provided. Informative annexes cover CVG design
        features and theoretical principles of operation. Learn More 1431-2004\/Cor
        1-2008 IEEE Standard Specification Format Guide and Test Procedure for Coriolis
        Vibratory Gyros - Corrigendum 1 Corrigendum to IEEE Std 1431-2004. Learn More
        292-1969 IEEE Specification Format for Single-Degree-of-Freedom Spring-Restrained
        Rate Gyros This specification defines the requirements for a single-degree-of-freedom
        spring-restrained rate gyro for [aircraft, missile, spacecraft,______] applications.
        The rate gyro shall be capable of providing [(dc, ac) voltage outputs proportional
        to angular rate inputs up to______ degrees per second, a switch closure(s)
        at angular rates (exceeding,less than)______ (+,-,u00b1)______ degrees per
        second]. Learn More 293-1969 IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros Recommended rate gyro test procedures derived
        from those currently in use, including test conditions to be considered, are
        compiled. In some cases alternate methods for measuring a performance characteristic
        have been included. This standard is intended to be a guide in the preparation
        of Section 4 of a specification that follows the format of IEEE Std 292, Specification
        Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros. Learn More
        293-1969\/Cor 1-2014 IEEE Standard for IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros -- Corrigendum 1: Table 1 Heading Correction
        to Table 1 on page 14 of IEEE Std 293-1969 Learn More 517-1974 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Degree-of-Freedom
        Rate-Integrating Gyros A specification format guide for the preparation of
        a rate-integrating gyro specification that provides a common meeting ground
        of terminology and practice for manufacturers and users is presented. A compilation
        of recommended procedures for testing a rate-integrating gyro is given. Learn
        More 529-1980 Supplement for Strapdown Applications to IEEE Standard Specification
        Format Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating
        Gyros A specification format guide for the preparation of a rate-integrating
        gyroscope specification is presented. Recommended procedures for testing a
        rate-integrating gyroscope are compiled. This standard, when combined with
        IEEE Std 517-1974 (R1980), defines the requirements and test procedures in
        terms of characteristics unique to the gyroscope or those applications in
        which the dynamic angular inputs are significantly greater than the limitations
        identified in IEEE Std 517. Learn More 529-1980\/Cor 1-2017 IEEE Standard
        Supplement for Strapdown Applications to IEEE Standard Specification Format
        Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating Gyros
        - Corrigendum 1: 3.3.9.2.2, 3.6.4.1.1, 3.6.4.1.2, 6.3, and 10.10.4.1 Corrections
        are made by this corrigendum to material already published in IEEE Std 529-1980.
        Learn More 671-1985 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement A guide is presented for the preparation of a specification
        and test procedure for an inertial angular sensor that provides a common meeting
        ground of terminology and practice for manufacturers and users of an array
        of sensors that have been developed to meet needs not easily met by traditional
        spinning-rotor gyroscopes. A test procedure for verifying that the specifications
        have been met is given. The standard is not intended to compete with existing
        standards for specific devices with highly specific models and error sources,
        such as spring-restrained rate gyros, but to provide a uniform guide for those
        inertial angular sensors that have not been covered elsewhere. Learn More
        671-1985\/Cor 1-2010 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement Corrigendum 1: 4.7.2.6 Short-Term Stability and Annex A Sensor
        Dynamic Block Diagrams IEEE Std 671-1985 provides specifications and test
        requirements for a non-gyroscopic inertial angular sensor that may measure
        angular jerk, acceleration, rate, or displacement with or without response
        down to zero frequency. A standard specification format is provided. A compilation
        of recommended test procedures, derived from those presently used in the industry,
        is also provided. Informative annexes cover design features and theoretical
        principles of operation. This corrigendum makes changes to 4.7.2.6 to delete
        a sentence that does not belong there, to add a subclause that was inadvertently
        left out, and to renumber the existing subclauses. Changes are also being
        made to fix the block diagrams in Annex A, to correct a misspelling of inertia,
        and to add a missing symbol. Learn More 836-2009 IEEE Recommended Practice
        for Precision Centrifuge Testing of Linear Accelerometers This recommended
        practice describes the conduct and analysis of precision tests that are to
        be performed on linear accelerometers using centrifuge techniques. The term
        u201cprecision,u201d in this context, refers to tests that are conducted to
        evaluate accelerometer parameters, as opposed to those conducted to establish
        environmental survivability only. Evaluation may take the form of determining
        the coefficients of the accelerometer''s model equation, except for bias and
        scale factor, which are most accurately determined by static multi-position
        tests. Alternatively, evaluation may only establish that the accelerometer
        output complies with specific error limit criteria. Learn More Facebook Twitter
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        Digital Library IEEE Standards IEEE Spectrum More Sites eTools Standards Access
        Standards Search Standards Standards Development Standards Adoption Choose
        from the many ways to access IEEE SA Standards. Choose from individual or
        organizational access options to get the standards you need. Find the standards
        you\u2019re looking for. Get involved in the development of market-driven
        technology standards with proven expertise and dedicated support. Learn more
        about how to adopt IEEE standards. Products & Programs Alliance Management
        Services Conformity Assessment & Certification IEEE SA Open Source Industry
        Affiliate Network (IAN) Industry Connections The National Electrical Safety
        Code\u00ae (NESC\u00ae) Registration Authority Government Engagement Program
        on Standards Standards Fellowship All Products & Programs Full ecosystem of
        standards-related solutions to help drive awareness, activation, and adoption.
        Providing support services to help manage the day-to-day operations of industry
        groups, allowing key stakeholders to focus on the work at hand. Focused on
        development and implementation of rigorous conformity assessment programs
        designed to help accelerate market adoption, reduce costs and more. A vendor-neutral,
        inclusive, open source platform\u2014for all, from independent software developers
        and start ups to industry, academic and research institutions. Open to consortia,
        industry alliance or other industry organizations, looking to bring forward
        specifications for standards development and market adoption. Facilitating
        collaboration among organizations and individuals as they hone and refine
        their thinking on rapidly changing technologies. Guidelines for practical
        safeguarding during the installation, operation, and maintenance of electric
        supply, communication lines and associated equipment. Assigns and maintains
        unique identifiers and unambiguous names to objects for those wishing to register
        them. Program for policymakers providing tailored standards information, access
        to the IEEE SA standardization ecosystem, and standardization resources. Providing
        global standards professionals the opportunity to observe the IEEE standards
        development process and learn about technical areas of interest. See all the
        programs, products, and services that IEEE SA has to offer. Focuses Artificial
        Intelligence Systems (AIS) Connectivity & Telecom Energy Foundational Technologies
        Healthcare and Life Sciences Mobility Government Engagement Strategic focuses
        and industries where IEEE SA is raising the world\u2019s standards. Developing
        accessible and sustainable approaches and solutions for practical application
        of AIS principles and frameworks. Advancing robust, responsible, and affordable
        connectivity. Enabling sustainable, efficient, and accessible energy through
        technological advances on a global scale. Working to standardize seamless
        and ubiquitous connectivity across all applications of connected technologies.
        Focused on enabling affordable healthcare, access to medicine, and innovation
        to improve overall global wellness. Working to help the evolving mobility
        ecosystem address some of its greatest business opportunities that have the
        potential to solve major societal challenges. Building bridges between the
        worlds of technology, standards, and policy making. Get Involved Events IEEE
        SA Membership How to Get Involved Learn about opportunities to engage with
        IEEE SA. Join us at upcoming virtual or in-person events. Flexible membership
        options that offer enhanced participation in IEEE SA activities, standards
        development, and governance. There are many opportunities for participation,
        find the right one for you. Resources Training & Development News IEEE SA
        Newsletter Standards Store Training and communication resources to stay connected.
        Individual and organizational effectiveness program to enable the success
        of our vital volunteers. Read the latest news on IEEE SA. Subscribe to our
        newsletter and keep up to date on the latest standards, event, and activities.
        Get the standards you need. Select from individual standards or standards
        bundles. MAC Address Active Standard IEEE 952-2020 IEEE Standard for Specifying
        and Testing Single-Axis Interferometric Fiber Optic Gyros Purchase Access
        via Subscription Home Standards IEEE 952-2020 Specification and test procedures
        for a single-axis interferometric fiber optic gyro (IFOG) for use as a sensor
        in attitude control systems, angular displacement measuring systems, and angular
        rate measuring systems are defined. The test procedures are derived from those
        presently used in the industry. Sponsor Committee AES\/GA - Gyro Accelerometer
        Panel Learn More Status Active Standard PAR Approval 2019-02-08 Superseding
        952-1997 Board Approval 2020-09-24 History Published: 2021-02-12 Working Group
        Details Society IEEE Aerospace and Electronic Systems Society Learn More Sponsor
        Committee AES\/GA - Gyro Accelerometer Panel Learn More Working Group SENSR_WG
        - Sensors Working Group Learn More IEEE Program Manager Dan Perez Contact
        Working Group Chair Harry Davis Active Projects Active Standards Superseded
        Standards Inactive-Withdrawn Standards Inactive-Reserved Standards P1431 Standard
        for Specifying and Testing Coriolis Vibratory Gyros This standard defines
        requirements and test procedures for a single-axis Coriolis vibratory gyro
        (CVG) for use as a sensor in attitude control systems, angular displacement
        measuring systems, and angular rate measuring systems. Informative annexes
        cover CVG design features and theoretical principles of operation. Learn More
        1293-2018 IEEE Standard Specification Format Guide and Test Procedure for
        Linear Single-Axis, Nongyroscopic Accelerometers The specification and test
        requirements for a linear, single-axis, nongyroscopic accelerometer for use
        in inertial navigation, guidance, and leveling systems are defined. A standard
        specification guide and a compilation of recommended test procedures for such
        accelerometers are provided. Informative annexes are given on the various
        types of such accelerometers (force or pendulous torque rebalance with analog
        or digital output, vibrating beam, and micromechanical) and error effects,
        on filtering, noise, and transient analysis techniques, and on calibration
        and modeling techniques (multipoint tumble analysis, vibration and shock test
        analyses, and geophysical effects in inertial instrument testing). Learn More
        1554-2005 IEEE Recommended Practice for Inertial Sensor Test Equipment, Instrumentation,
        Data Acquisition, and Analysis Test equipment, data acquisition equipment,
        instrumentation, test facilities, and data analysis techniques used in inertial
        sensor testing are described in this recommended practice. Learn More 528-2019
        IEEE Standard for Inertial Sensor Terminology Terms and definitions relating
        to inertial sensors are presented in this standard. Usage as understood by
        the inertial sensor community is given preference over general technical usage
        of the terms herein. The criterion for inclusion of a term and its definition
        in this standard is usefulness as related to inertial sensor technology. Learn
        More 647-2006 IEEE Standard Specification Format Guide and Test Procedure
        for Single-Axis Laser Gyros Specification and test requirements for a single-axis
        ring laser gyro (RLG) for use as a sensor in attitude control systems, angular
        displacement measuring systems, and angular rate measuring systems are defined.
        A standard specification format guide for the preparation of a single-axis
        RLG is provided. A compilation of recommended procedures for testing an RLG,
        derived from those presently used in the industry, is also provided. Learn
        More 813-1988 IEEE Specification Format Guide and Test Procedure for Two-Degree-of-Freedom
        Dynamically Tuned Gyros A format guide for the preparation of a two-degree-of-freedom
        dynamically tuned gyro (DTG) specification is given that provides a common
        ground of terminology and practice for manufacturers and users. A compilation
        of recommended procedures for testing a DTG is also given. The requirements
        and test procedures are defined in terms unique to the DTG. They cover applications
        of the gyro as an angular motion sensor in navigation and control systems.
        They apply to two modes of use: (1) as a strap-down sensor in operating environments
        typical of aircraft and missile applications, and (2) as a sensor in gimballed
        platform applications in which the dynamic angular inputs to which the gyro
        is subjected are benign relative to the accuracy required. In the case of
        the strap-down DTG, the characteristics of the external capture loops are
        considered to the extent necessary to define the gyro performance. Learn More
        1293-1998\/Cor 1-2008 IEEE Standard Specification Format Guide and Test Procedure
        for Linear,Single-Axis, Nongyroscopic Accelerometers Corrigendum 1: Changes
        to Annex K and Annex L Corrigendum to IEEE Std 1293-1998. Specification and
        test requirements for linear, single-axis, nongyroscopic accelerometers for
        use as a sensor in attitude control systems, linear displacement measuring
        systems, and linear rate measuring systems are defined. The specification
        format guide and test procedure standard applies to force-rebalance accelerometers
        (pendulous or translational proof mass), vibrating beam accelerometers (VBAs),
        and micromechanical accelerometers that range from lesser accuracy to high
        accuracy devices. Learn More 528-2001 IEEE Standard for Inertial Sensor Terminology
        Terms and definitions relating to inertial senors are presented in this standard.
        Usage as understood by the inertial sensor community is given preference over
        general technical usage of the terms herein. The criterion for inclusion of
        a term and its definition in this standard is usefulness as related to inertial
        sensor technology. Learn More 952-1997 IEEE Standard Specification Format
        Guide and Test Procedure for Single-Axis Interferometric Fiber Optic Gyros
        Specification and test requirements for a single-axis interferometric fiber
        optic gyro (IFOG) for use as a sensor in attitude control systems, angular
        displacement measuring systems, and angular rate measuring systems are defined.
        A standard specification format guide for the preparation of a single-axis
        IFOG is provided. A compilation of recommended procedures for testing a fiber
        optic gyro, derived from those presently used in the industry, is also provided.
        Learn More 952-1997\/Cor 1-2016 IEEE Standard Specification Format Guide and
        Test Procedure for Single-Axis Interferometric Fiber Optic Gyros -- Corrigendum
        1: Figure 1 and Subclauses 5.3.4, 8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4,
        12.12.3.1, and 12.12.4.1 Errors identified in IEEE Std 952-1997 are corrected
        in this corrigendum. Corrections are made to Figure 1 and in subclauses 5.3.4,
        8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4, 12.12.3.1, and 12.12.4.1. Learn
        More No Inactive-Withdrawn Standards 1431-2004 IEEE Standard Specification
        Format Guide and Test Procedure for Coriolis Vibratory Gyros Specification
        and test requirements for a single-axis Coriolis vibratory gyro (CVG) for
        use as a sensor in attitude control systems, angular displacement measuring
        systems, and angular rate measuring systems are defined. A stadard specification
        format guide for the preparation of a single-axis CVG is provided. A complilation
        of recommended procedures for testing a CVG, derived from those presently
        used in the industry, is also provided. Informative annexes cover CVG design
        features and theoretical principles of operation. Learn More 1431-2004\/Cor
        1-2008 IEEE Standard Specification Format Guide and Test Procedure for Coriolis
        Vibratory Gyros - Corrigendum 1 Corrigendum to IEEE Std 1431-2004. Learn More
        292-1969 IEEE Specification Format for Single-Degree-of-Freedom Spring-Restrained
        Rate Gyros This specification defines the requirements for a single-degree-of-freedom
        spring-restrained rate gyro for [aircraft, missile, spacecraft,______] applications.
        The rate gyro shall be capable of providing [(dc, ac) voltage outputs proportional
        to angular rate inputs up to______ degrees per second, a switch closure(s)
        at angular rates (exceeding,less than)______ (+,-,u00b1)______ degrees per
        second]. Learn More 293-1969 IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros Recommended rate gyro test procedures derived
        from those currently in use, including test conditions to be considered, are
        compiled. In some cases alternate methods for measuring a performance characteristic
        have been included. This standard is intended to be a guide in the preparation
        of Section 4 of a specification that follows the format of IEEE Std 292, Specification
        Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros. Learn More
        293-1969\/Cor 1-2014 IEEE Standard for IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros -- Corrigendum 1: Table 1 Heading Correction
        to Table 1 on page 14 of IEEE Std 293-1969 Learn More 517-1974 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Degree-of-Freedom
        Rate-Integrating Gyros A specification format guide for the preparation of
        a rate-integrating gyro specification that provides a common meeting ground
        of terminology and practice for manufacturers and users is presented. A compilation
        of recommended procedures for testing a rate-integrating gyro is given. Learn
        More 529-1980 Supplement for Strapdown Applications to IEEE Standard Specification
        Format Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating
        Gyros A specification format guide for the preparation of a rate-integrating
        gyroscope specification is presented. Recommended procedures for testing a
        rate-integrating gyroscope are compiled. This standard, when combined with
        IEEE Std 517-1974 (R1980), defines the requirements and test procedures in
        terms of characteristics unique to the gyroscope or those applications in
        which the dynamic angular inputs are significantly greater than the limitations
        identified in IEEE Std 517. Learn More 529-1980\/Cor 1-2017 IEEE Standard
        Supplement for Strapdown Applications to IEEE Standard Specification Format
        Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating Gyros
        - Corrigendum 1: 3.3.9.2.2, 3.6.4.1.1, 3.6.4.1.2, 6.3, and 10.10.4.1 Corrections
        are made by this corrigendum to material already published in IEEE Std 529-1980.
        Learn More 671-1985 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement A guide is presented for the preparation of a specification
        and test procedure for an inertial angular sensor that provides a common meeting
        ground of terminology and practice for manufacturers and users of an array
        of sensors that have been developed to meet needs not easily met by traditional
        spinning-rotor gyroscopes. A test procedure for verifying that the specifications
        have been met is given. The standard is not intended to compete with existing
        standards for specific devices with highly specific models and error sources,
        such as spring-restrained rate gyros, but to provide a uniform guide for those
        inertial angular sensors that have not been covered elsewhere. Learn More
        671-1985\/Cor 1-2010 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement Corrigendum 1: 4.7.2.6 Short-Term Stability and Annex A Sensor
        Dynamic Block Diagrams IEEE Std 671-1985 provides specifications and test
        requirements for a non-gyroscopic inertial angular sensor that may measure
        angular jerk, acceleration, rate, or displacement with or without response
        down to zero frequency. A standard specification format is provided. A compilation
        of recommended test procedures, derived from those presently used in the industry,
        is also provided. Informative annexes cover design features and theoretical
        principles of operation. This corrigendum makes changes to 4.7.2.6 to delete
        a sentence that does not belong there, to add a subclause that was inadvertently
        left out, and to renumber the existing subclauses. Changes are also being
        made to fix the block diagrams in Annex A, to correct a misspelling of inertia,
        and to add a missing symbol. Learn More 836-2009 IEEE Recommended Practice
        for Precision Centrifuge Testing of Linear Accelerometers This recommended
        practice describes the conduct and analysis of precision tests that are to
        be performed on linear accelerometers using centrifuge techniques. The term
        u201cprecision,u201d in this context, refers to tests that are conducted to
        evaluate accelerometer parameters, as opposed to those conducted to establish
        environmental survivability only. Evaluation may take the form of determining
        the coefficients of the accelerometer''s model equation, except for bias and
        scale factor, which are most accurately determined by static multi-position
        tests. Alternatively, evaluation may only establish that the accelerometer
        output complies with specific error limit criteria. Learn More Facebook Twitter
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        for testing a DTG is also given. The requirements and test procedures are
        defined in terms unique to the DTG. They cover applications of the gyro as
        an angular motion sensor in navigation and control systems. They apply to
        two modes of use: (1) as a strap-down sensor in operating environments typical
        of aircraft and missile applications, and (2) as a sensor in gimballed platform
        applications in which the dynamic angular inputs to which the gyro is subjected
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        bundles. MAC Address Active Standard IEEE 813-1988 IEEE Specification Format
        Guide and Test Procedure for Two-Degree-of-Freedom Dynamically Tuned Gyros
        Purchase Access via Subscription Home Standards IEEE 813-1988 A format guide
        for the preparation of a two-degree-of-freedom dynamically tuned gyro (DTG)
        specification is given that provides a common ground of terminology and practice
        for manufacturers and users. A compilation of recommended procedures for testing
        a DTG is also given. The requirements and test procedures are defined in terms
        unique to the DTG. They cover applications of the gyro as an angular motion
        sensor in navigation and control systems. They apply to two modes of use:
        (1) as a strap-down sensor in operating environments typical of aircraft and
        missile applications, and (2) as a sensor in gimballed platform applications
        in which the dynamic angular inputs to which the gyro is subjected are benign
        relative to the accuracy required. In the case of the strap-down DTG, the
        characteristics of the external capture loops are considered to the extent
        necessary to define the gyro performance. Sponsor Committee AES\/GA - Gyro
        Accelerometer Panel Learn More Status Active Standard Board Approval 1988-08-17
        History ANSI Approved: 1989-05-04 ANSI Withdrawn Date: 2016-08-19 Published:
        1989-06-05 Reaffirmed: 2011-12-07 Working Group Details Society IEEE Aerospace
        and Electronic Systems Society Learn More Sponsor Committee AES\/GA - Gyro
        Accelerometer Panel Learn More Working Group SENSR_WG - Sensors Working Group
        Learn More IEEE Program Manager Dan Perez Contact Working Group Chair Harry
        Davis Active Projects Active Standards Superseded Standards Inactive-Withdrawn
        Standards Inactive-Reserved Standards P1431 Standard for Specifying and Testing
        Coriolis Vibratory Gyros This standard defines requirements and test procedures
        for a single-axis Coriolis vibratory gyro (CVG) for use as a sensor in attitude
        control systems, angular displacement measuring systems, and angular rate
        measuring systems. Informative annexes cover CVG design features and theoretical
        principles of operation. Learn More 1293-2018 IEEE Standard Specification
        Format Guide and Test Procedure for Linear Single-Axis, Nongyroscopic Accelerometers
        The specification and test requirements for a linear, single-axis, nongyroscopic
        accelerometer for use in inertial navigation, guidance, and leveling systems
        are defined. A standard specification guide and a compilation of recommended
        test procedures for such accelerometers are provided. Informative annexes
        are given on the various types of such accelerometers (force or pendulous
        torque rebalance with analog or digital output, vibrating beam, and micromechanical)
        and error effects, on filtering, noise, and transient analysis techniques,
        and on calibration and modeling techniques (multipoint tumble analysis, vibration
        and shock test analyses, and geophysical effects in inertial instrument testing).
        Learn More 1554-2005 IEEE Recommended Practice for Inertial Sensor Test Equipment,
        Instrumentation, Data Acquisition, and Analysis Test equipment, data acquisition
        equipment, instrumentation, test facilities, and data analysis techniques
        used in inertial sensor testing are described in this recommended practice.
        Learn More 528-2019 IEEE Standard for Inertial Sensor Terminology Terms and
        definitions relating to inertial sensors are presented in this standard. Usage
        as understood by the inertial sensor community is given preference over general
        technical usage of the terms herein. The criterion for inclusion of a term
        and its definition in this standard is usefulness as related to inertial sensor
        technology. Learn More 647-2006 IEEE Standard Specification Format Guide and
        Test Procedure for Single-Axis Laser Gyros Specification and test requirements
        for a single-axis ring laser gyro (RLG) for use as a sensor in attitude control
        systems, angular displacement measuring systems, and angular rate measuring
        systems are defined. A standard specification format guide for the preparation
        of a single-axis RLG is provided. A compilation of recommended procedures
        for testing an RLG, derived from those presently used in the industry, is
        also provided. Learn More 952-2020 IEEE Standard for Specifying and Testing
        Single-Axis Interferometric Fiber Optic Gyros Specification and test procedures
        for a single-axis interferometric fiber optic gyro (IFOG) for use as a sensor
        in attitude control systems, angular displacement measuring systems, and angular
        rate measuring systems are defined. The test procedures are derived from those
        presently used in the industry. Learn More 1293-1998\/Cor 1-2008 IEEE Standard
        Specification Format Guide and Test Procedure for Linear,Single-Axis, Nongyroscopic
        Accelerometers Corrigendum 1: Changes to Annex K and Annex L Corrigendum to
        IEEE Std 1293-1998. Specification and test requirements for linear, single-axis,
        nongyroscopic accelerometers for use as a sensor in attitude control systems,
        linear displacement measuring systems, and linear rate measuring systems are
        defined. The specification format guide and test procedure standard applies
        to force-rebalance accelerometers (pendulous or translational proof mass),
        vibrating beam accelerometers (VBAs), and micromechanical accelerometers that
        range from lesser accuracy to high accuracy devices. Learn More 528-2001 IEEE
        Standard for Inertial Sensor Terminology Terms and definitions relating to
        inertial senors are presented in this standard. Usage as understood by the
        inertial sensor community is given preference over general technical usage
        of the terms herein. The criterion for inclusion of a term and its definition
        in this standard is usefulness as related to inertial sensor technology. Learn
        More 952-1997 IEEE Standard Specification Format Guide and Test Procedure
        for Single-Axis Interferometric Fiber Optic Gyros Specification and test requirements
        for a single-axis interferometric fiber optic gyro (IFOG) for use as a sensor
        in attitude control systems, angular displacement measuring systems, and angular
        rate measuring systems are defined. A standard specification format guide
        for the preparation of a single-axis IFOG is provided. A compilation of recommended
        procedures for testing a fiber optic gyro, derived from those presently used
        in the industry, is also provided. Learn More 952-1997\/Cor 1-2016 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Axis Interferometric
        Fiber Optic Gyros -- Corrigendum 1: Figure 1 and Subclauses 5.3.4, 8.3, 12.11.4.3.2,
        12.11.4.3.3, 12.11.4.3.4, 12.12.3.1, and 12.12.4.1 Errors identified in IEEE
        Std 952-1997 are corrected in this corrigendum. Corrections are made to Figure
        1 and in subclauses 5.3.4, 8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4, 12.12.3.1,
        and 12.12.4.1. Learn More No Inactive-Withdrawn Standards 1431-2004 IEEE Standard
        Specification Format Guide and Test Procedure for Coriolis Vibratory Gyros
        Specification and test requirements for a single-axis Coriolis vibratory gyro
        (CVG) for use as a sensor in attitude control systems, angular displacement
        measuring systems, and angular rate measuring systems are defined. A stadard
        specification format guide for the preparation of a single-axis CVG is provided.
        A complilation of recommended procedures for testing a CVG, derived from those
        presently used in the industry, is also provided. Informative annexes cover
        CVG design features and theoretical principles of operation. Learn More 1431-2004\/Cor
        1-2008 IEEE Standard Specification Format Guide and Test Procedure for Coriolis
        Vibratory Gyros - Corrigendum 1 Corrigendum to IEEE Std 1431-2004. Learn More
        292-1969 IEEE Specification Format for Single-Degree-of-Freedom Spring-Restrained
        Rate Gyros This specification defines the requirements for a single-degree-of-freedom
        spring-restrained rate gyro for [aircraft, missile, spacecraft,______] applications.
        The rate gyro shall be capable of providing [(dc, ac) voltage outputs proportional
        to angular rate inputs up to______ degrees per second, a switch closure(s)
        at angular rates (exceeding,less than)______ (+,-,u00b1)______ degrees per
        second]. Learn More 293-1969 IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros Recommended rate gyro test procedures derived
        from those currently in use, including test conditions to be considered, are
        compiled. In some cases alternate methods for measuring a performance characteristic
        have been included. This standard is intended to be a guide in the preparation
        of Section 4 of a specification that follows the format of IEEE Std 292, Specification
        Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros. Learn More
        293-1969\/Cor 1-2014 IEEE Standard for IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros -- Corrigendum 1: Table 1 Heading Correction
        to Table 1 on page 14 of IEEE Std 293-1969 Learn More 517-1974 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Degree-of-Freedom
        Rate-Integrating Gyros A specification format guide for the preparation of
        a rate-integrating gyro specification that provides a common meeting ground
        of terminology and practice for manufacturers and users is presented. A compilation
        of recommended procedures for testing a rate-integrating gyro is given. Learn
        More 529-1980 Supplement for Strapdown Applications to IEEE Standard Specification
        Format Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating
        Gyros A specification format guide for the preparation of a rate-integrating
        gyroscope specification is presented. Recommended procedures for testing a
        rate-integrating gyroscope are compiled. This standard, when combined with
        IEEE Std 517-1974 (R1980), defines the requirements and test procedures in
        terms of characteristics unique to the gyroscope or those applications in
        which the dynamic angular inputs are significantly greater than the limitations
        identified in IEEE Std 517. Learn More 529-1980\/Cor 1-2017 IEEE Standard
        Supplement for Strapdown Applications to IEEE Standard Specification Format
        Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating Gyros
        - Corrigendum 1: 3.3.9.2.2, 3.6.4.1.1, 3.6.4.1.2, 6.3, and 10.10.4.1 Corrections
        are made by this corrigendum to material already published in IEEE Std 529-1980.
        Learn More 671-1985 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement A guide is presented for the preparation of a specification
        and test procedure for an inertial angular sensor that provides a common meeting
        ground of terminology and practice for manufacturers and users of an array
        of sensors that have been developed to meet needs not easily met by traditional
        spinning-rotor gyroscopes. A test procedure for verifying that the specifications
        have been met is given. The standard is not intended to compete with existing
        standards for specific devices with highly specific models and error sources,
        such as spring-restrained rate gyros, but to provide a uniform guide for those
        inertial angular sensors that have not been covered elsewhere. Learn More
        671-1985\/Cor 1-2010 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement Corrigendum 1: 4.7.2.6 Short-Term Stability and Annex A Sensor
        Dynamic Block Diagrams IEEE Std 671-1985 provides specifications and test
        requirements for a non-gyroscopic inertial angular sensor that may measure
        angular jerk, acceleration, rate, or displacement with or without response
        down to zero frequency. A standard specification format is provided. A compilation
        of recommended test procedures, derived from those presently used in the industry,
        is also provided. Informative annexes cover design features and theoretical
        principles of operation. This corrigendum makes changes to 4.7.2.6 to delete
        a sentence that does not belong there, to add a subclause that was inadvertently
        left out, and to renumber the existing subclauses. Changes are also being
        made to fix the block diagrams in Annex A, to correct a misspelling of inertia,
        and to add a missing symbol. Learn More 836-2009 IEEE Recommended Practice
        for Precision Centrifuge Testing of Linear Accelerometers This recommended
        practice describes the conduct and analysis of precision tests that are to
        be performed on linear accelerometers using centrifuge techniques. The term
        u201cprecision,u201d in this context, refers to tests that are conducted to
        evaluate accelerometer parameters, as opposed to those conducted to establish
        environmental survivability only. Evaluation may take the form of determining
        the coefficients of the accelerometer''s model equation, except for bias and
        scale factor, which are most accurately determined by static multi-position
        tests. Alternatively, evaluation may only establish that the accelerometer
        output complies with specific error limit criteria. Learn More Facebook Twitter
        LinkedIn Instagram YouTube IEEE SA About Us IEEE SA Membership Corporate Program
        Distributor Program Training & Development Policies & Procedures Contact Us
        Board of Governors About Board of Governors Awards Committee Corporate Advisory
        Group Industry Connections Committee Registration Authority Committee Strategic
        Planning Coordination Committee Standards Board About Standards Board Board
        Approvals Audit Committee New Standards Committee Patent Committee Procedures
        Committee Standards Review Committee News & Events News IEEE SA Newsletter
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        IEEE Ethics Reporting IEEE Privacy Policy IEEE SA Copyright Policy \u00a9
        Copyright 2021 IEEE \u2013 All rights reserved. Use of this website signifies
        your agreement to the IEEE Terms and Conditions . A not-for-profit organization,
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        Get the standards you need. Select from individual standards or standards
        bundles. MAC Address Inactive-Reserved Standard IEEE 836-2009 IEEE Recommended
        Practice for Precision Centrifuge Testing of Linear Accelerometers Purchase
        Access via Subscription Home Standards IEEE 836-2009 This recommended practice
        describes the conduct and analysis of precision tests that are to be performed
        on linear accelerometers using centrifuge techniques. The term \u201cprecision,\u201d
        in this context, refers to tests that are conducted to evaluate accelerometer
        parameters, as opposed to those conducted to establish environmental survivability
        only. Evaluation may take the form of determining the coefficients of the
        accelerometer''s model equation, except for bias and scale factor, which are
        most accurately determined by static multi-position tests. Alternatively,
        evaluation may only establish that the accelerometer output complies with
        specific error limit criteria. Sponsor Committee AES\/GA - Gyro Accelerometer
        Panel Learn More Status Inactive-Reserved Standard PAR Approval 2003-03-20
        Superseded by 836-2009 Superseding 836-2009 Board Approval 2009-06-17 History
        ANSI Approved: 2009-10-08 Published: 2009-09-17 Inactivated Date: 2020-03-05
        Working Group Details Society IEEE Aerospace and Electronic Systems Society
        Learn More Sponsor Committee AES\/GA - Gyro Accelerometer Panel Learn More
        Working Group SENSR_WG - Sensors Working Group IEEE Program Manager Dan Perez
        Contact Working Group Chair Harry Davis Active Projects Active Standards Superseded
        Standards Inactive-Withdrawn Standards Inactive-Reserved Standards P1431 Standard
        for Specifying and Testing Coriolis Vibratory Gyros This standard defines
        requirements and test procedures for a single-axis Coriolis vibratory gyro
        (CVG) for use as a sensor in attitude control systems, angular displacement
        measuring systems, and angular rate measuring systems. Informative annexes
        cover CVG design features and theoretical principles of operation. Learn More
        1293-2018 IEEE Standard Specification Format Guide and Test Procedure for
        Linear Single-Axis, Nongyroscopic Accelerometers The specification and test
        requirements for a linear, single-axis, nongyroscopic accelerometer for use
        in inertial navigation, guidance, and leveling systems are defined. A standard
        specification guide and a compilation of recommended test procedures for such
        accelerometers are provided. Informative annexes are given on the various
        types of such accelerometers (force or pendulous torque rebalance with analog
        or digital output, vibrating beam, and micromechanical) and error effects,
        on filtering, noise, and transient analysis techniques, and on calibration
        and modeling techniques (multipoint tumble analysis, vibration and shock test
        analyses, and geophysical effects in inertial instrument testing). Learn More
        1554-2005 IEEE Recommended Practice for Inertial Sensor Test Equipment, Instrumentation,
        Data Acquisition, and Analysis Test equipment, data acquisition equipment,
        instrumentation, test facilities, and data analysis techniques used in inertial
        sensor testing are described in this recommended practice. Learn More 528-2019
        IEEE Standard for Inertial Sensor Terminology Terms and definitions relating
        to inertial sensors are presented in this standard. Usage as understood by
        the inertial sensor community is given preference over general technical usage
        of the terms herein. The criterion for inclusion of a term and its definition
        in this standard is usefulness as related to inertial sensor technology. Learn
        More 647-2006 IEEE Standard Specification Format Guide and Test Procedure
        for Single-Axis Laser Gyros Specification and test requirements for a single-axis
        ring laser gyro (RLG) for use as a sensor in attitude control systems, angular
        displacement measuring systems, and angular rate measuring systems are defined.
        A standard specification format guide for the preparation of a single-axis
        RLG is provided. A compilation of recommended procedures for testing an RLG,
        derived from those presently used in the industry, is also provided. Learn
        More 813-1988 IEEE Specification Format Guide and Test Procedure for Two-Degree-of-Freedom
        Dynamically Tuned Gyros A format guide for the preparation of a two-degree-of-freedom
        dynamically tuned gyro (DTG) specification is given that provides a common
        ground of terminology and practice for manufacturers and users. A compilation
        of recommended procedures for testing a DTG is also given. The requirements
        and test procedures are defined in terms unique to the DTG. They cover applications
        of the gyro as an angular motion sensor in navigation and control systems.
        They apply to two modes of use: (1) as a strap-down sensor in operating environments
        typical of aircraft and missile applications, and (2) as a sensor in gimballed
        platform applications in which the dynamic angular inputs to which the gyro
        is subjected are benign relative to the accuracy required. In the case of
        the strap-down DTG, the characteristics of the external capture loops are
        considered to the extent necessary to define the gyro performance. Learn More
        952-2020 IEEE Standard for Specifying and Testing Single-Axis Interferometric
        Fiber Optic Gyros Specification and test procedures for a single-axis interferometric
        fiber optic gyro (IFOG) for use as a sensor in attitude control systems, angular
        displacement measuring systems, and angular rate measuring systems are defined.
        The test procedures are derived from those presently used in the industry.
        Learn More 1293-1998\/Cor 1-2008 IEEE Standard Specification Format Guide
        and Test Procedure for Linear,Single-Axis, Nongyroscopic Accelerometers Corrigendum
        1: Changes to Annex K and Annex L Corrigendum to IEEE Std 1293-1998. Specification
        and test requirements for linear, single-axis, nongyroscopic accelerometers
        for use as a sensor in attitude control systems, linear displacement measuring
        systems, and linear rate measuring systems are defined. The specification
        format guide and test procedure standard applies to force-rebalance accelerometers
        (pendulous or translational proof mass), vibrating beam accelerometers (VBAs),
        and micromechanical accelerometers that range from lesser accuracy to high
        accuracy devices. Learn More 528-2001 IEEE Standard for Inertial Sensor Terminology
        Terms and definitions relating to inertial senors are presented in this standard.
        Usage as understood by the inertial sensor community is given preference over
        general technical usage of the terms herein. The criterion for inclusion of
        a term and its definition in this standard is usefulness as related to inertial
        sensor technology. Learn More 952-1997 IEEE Standard Specification Format
        Guide and Test Procedure for Single-Axis Interferometric Fiber Optic Gyros
        Specification and test requirements for a single-axis interferometric fiber
        optic gyro (IFOG) for use as a sensor in attitude control systems, angular
        displacement measuring systems, and angular rate measuring systems are defined.
        A standard specification format guide for the preparation of a single-axis
        IFOG is provided. A compilation of recommended procedures for testing a fiber
        optic gyro, derived from those presently used in the industry, is also provided.
        Learn More 952-1997\/Cor 1-2016 IEEE Standard Specification Format Guide and
        Test Procedure for Single-Axis Interferometric Fiber Optic Gyros -- Corrigendum
        1: Figure 1 and Subclauses 5.3.4, 8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4,
        12.12.3.1, and 12.12.4.1 Errors identified in IEEE Std 952-1997 are corrected
        in this corrigendum. Corrections are made to Figure 1 and in subclauses 5.3.4,
        8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4, 12.12.3.1, and 12.12.4.1. Learn
        More No Inactive-Withdrawn Standards 1431-2004 IEEE Standard Specification
        Format Guide and Test Procedure for Coriolis Vibratory Gyros Specification
        and test requirements for a single-axis Coriolis vibratory gyro (CVG) for
        use as a sensor in attitude control systems, angular displacement measuring
        systems, and angular rate measuring systems are defined. A stadard specification
        format guide for the preparation of a single-axis CVG is provided. A complilation
        of recommended procedures for testing a CVG, derived from those presently
        used in the industry, is also provided. Informative annexes cover CVG design
        features and theoretical principles of operation. Learn More 1431-2004\/Cor
        1-2008 IEEE Standard Specification Format Guide and Test Procedure for Coriolis
        Vibratory Gyros - Corrigendum 1 Corrigendum to IEEE Std 1431-2004. Learn More
        292-1969 IEEE Specification Format for Single-Degree-of-Freedom Spring-Restrained
        Rate Gyros This specification defines the requirements for a single-degree-of-freedom
        spring-restrained rate gyro for [aircraft, missile, spacecraft,______] applications.
        The rate gyro shall be capable of providing [(dc, ac) voltage outputs proportional
        to angular rate inputs up to______ degrees per second, a switch closure(s)
        at angular rates (exceeding,less than)______ (+,-,u00b1)______ degrees per
        second]. Learn More 293-1969 IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros Recommended rate gyro test procedures derived
        from those currently in use, including test conditions to be considered, are
        compiled. In some cases alternate methods for measuring a performance characteristic
        have been included. This standard is intended to be a guide in the preparation
        of Section 4 of a specification that follows the format of IEEE Std 292, Specification
        Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros. Learn More
        293-1969\/Cor 1-2014 IEEE Standard for IEEE Test Procedure for Single-Degree-of-Freedom
        Spring-Restrained Rate Gyros -- Corrigendum 1: Table 1 Heading Correction
        to Table 1 on page 14 of IEEE Std 293-1969 Learn More 517-1974 IEEE Standard
        Specification Format Guide and Test Procedure for Single-Degree-of-Freedom
        Rate-Integrating Gyros A specification format guide for the preparation of
        a rate-integrating gyro specification that provides a common meeting ground
        of terminology and practice for manufacturers and users is presented. A compilation
        of recommended procedures for testing a rate-integrating gyro is given. Learn
        More 529-1980 Supplement for Strapdown Applications to IEEE Standard Specification
        Format Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating
        Gyros A specification format guide for the preparation of a rate-integrating
        gyroscope specification is presented. Recommended procedures for testing a
        rate-integrating gyroscope are compiled. This standard, when combined with
        IEEE Std 517-1974 (R1980), defines the requirements and test procedures in
        terms of characteristics unique to the gyroscope or those applications in
        which the dynamic angular inputs are significantly greater than the limitations
        identified in IEEE Std 517. Learn More 529-1980\/Cor 1-2017 IEEE Standard
        Supplement for Strapdown Applications to IEEE Standard Specification Format
        Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating Gyros
        - Corrigendum 1: 3.3.9.2.2, 3.6.4.1.1, 3.6.4.1.2, 6.3, and 10.10.4.1 Corrections
        are made by this corrigendum to material already published in IEEE Std 529-1980.
        Learn More 671-1985 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement A guide is presented for the preparation of a specification
        and test procedure for an inertial angular sensor that provides a common meeting
        ground of terminology and practice for manufacturers and users of an array
        of sensors that have been developed to meet needs not easily met by traditional
        spinning-rotor gyroscopes. A test procedure for verifying that the specifications
        have been met is given. The standard is not intended to compete with existing
        standards for specific devices with highly specific models and error sources,
        such as spring-restrained rate gyros, but to provide a uniform guide for those
        inertial angular sensors that have not been covered elsewhere. Learn More
        671-1985\/Cor 1-2010 IEEE Standard Specification Format Guide and Test Procedure
        for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity,
        and Displacement Corrigendum 1: 4.7.2.6 Short-Term Stability and Annex A Sensor
        Dynamic Block Diagrams IEEE Std 671-1985 provides specifications and test
        requirements for a non-gyroscopic inertial angular sensor that may measure
        angular jerk, acceleration, rate, or displacement with or without response
        down to zero frequency. A standard specification format is provided. A compilation
        of recommended test procedures, derived from those presently used in the industry,
        is also provided. Informative annexes cover design features and theoretical
        principles of operation. This corrigendum makes changes to 4.7.2.6 to delete
        a sentence that does not belong there, to add a subclause that was inadvertently
        left out, and to renumber the existing subclauses. Changes are also being
        made to fix the block diagrams in Annex A, to correct a misspelling of inertia,
        and to add a missing symbol. Learn More Facebook Twitter LinkedIn Instagram
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        rate-integrating gyroscope are compiled. This standard, when combined with
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        systems, angular displacement measuring systems, and angular rate measuring
        systems are defined. A standard specification format guide for the preparation
        of&hellip;<\/div><\/div><div class=\"hit\"><h4 class=\"title\"><a href=\"https:\/\/standards.ieee.org\/ieee\/952\/7496\/\">
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        in attitude control systems, angular displacement measuring systems, and angular
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        presently&hellip;<\/div><\/div><div class=\"hit\"><h4 class=\"title\"><a href=\"https:\/\/standards.ieee.org\/ieee\/813\/1200\/\">
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                        <p>Terms and definitions relating to inertial sensors are presented in this standard. Usage as understood by the inertial sensor community is given preference over general technical usage of the terms herein. The criterion for inclusion of a term and its definition in this standard is usefulness as related to inertial sensor technology.</p>
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                                        class="col-sm-8 col-md-9">AES/GA - Gyro Accelerometer Panel                                        <br><a id="stnd-committee-url" class="arrow-link"
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                                                                                             href="https://development.standards.ieee.org/myproject-web/public/view.html#pardetail/6463">2018-05-14</a>
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                                                                    <dt class="col-sm-4 col-md-3">Sponsor Committee</dt>
                                                                            <dd id="stnd-working-group-committee"
                                            class="col-sm-8 col-md-9">AES/GA - Gyro Accelerometer Panel                                            <br><a id="stnd-working-group-committee-url" class="arrow-link"
                                                   target="_blank"
                                                   href="http://ieee-aess.org/tech-ops/gyro-and-accelerometer"
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                                                                                    SENSR_WG - Sensors Working Group                                            <br><a id="stnd-working-group-url" class="arrow-link" target="_blank"
                                                   href="https://development.standards.ieee.org/myproject-web/public/view.html#/interest/3546"
                                                   title="Learn More">Learn More</a>
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                                                                    <dt class="col-sm-4 col-md-3">IEEE Program Manager</dt>
                                    <dd id="stnd-staff-liaison"
                                        class="col-sm-8 col-md-9">Dan Perez                                        <br><a id="stnd-staff-liaison-email" class="arrow-link"
                                               href="mailTO:daniel.perez@ieee.org"
                                               title="Contact">Contact</a></dd>
                                
                                                                    <dt class="col-sm-4 col-md-3">Working Group Chair</dt>
                                    <dd id="stnd-working-group-chair"
                                        class="col-sm-8 col-md-9">Harry Davis</dd>
                                
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                                                                                                                            <div class="wg-project wg-active-project">
                                                <h4 id="wg-active-project-designation">P1431</h4>
                                                <h5 id="wg-active-project-title"
                                                    class="h4">Standard for Specifying and Testing Coriolis Vibratory Gyros</h5>
                                                <p id="wg-active-project-description">This standard defines requirements and test procedures for a single-axis Coriolis vibratory gyro (CVG) for use as a sensor in attitude control systems, angular displacement measuring systems, and angular rate measuring systems.  Informative annexes cover CVG design features and theoretical principles of operation.</p>
                                                <p><a id="wg-active-project-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/1431/10322"
                                                      title="Learn More">Learn More</a>
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                                                <h4 id="wg-active-standard-designation">1293-2018</h4>
                                                <h5 id="wg-active-standard-title"
                                                    class="h4">IEEE Standard Specification Format Guide and Test Procedure for Linear Single-Axis, Nongyroscopic Accelerometers</h5>
                                                <p id="wg-active-standard-description">The specification and test requirements for a linear, single-axis, nongyroscopic accelerometer for use in inertial navigation, guidance, and leveling systems are defined. A standard specification guide and a compilation of recommended test procedures for such accelerometers are provided. Informative annexes are given on the various types of such accelerometers (force or pendulous torque rebalance with analog or digital output, vibrating beam, and micromechanical) and error effects, on filtering, noise, and transient analysis techniques, and on calibration and modeling techniques (multipoint tumble analysis, vibration and  shock test analyses, and geophysical effects in inertial instrument testing).</p>
                                                <p><a id="wg-active-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/1293/5590"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-active-standard -->
                                                                                    <div class="wg-standard wg-active-standard">
                                                <h4 id="wg-active-standard-designation">1554-2005</h4>
                                                <h5 id="wg-active-standard-title"
                                                    class="h4">IEEE Recommended Practice for Inertial Sensor Test Equipment, Instrumentation, Data Acquisition, and Analysis</h5>
                                                <p id="wg-active-standard-description">Test equipment, data acquisition equipment, instrumentation, test facilities, and data analysis techniques used in inertial sensor testing are described in this recommended practice.</p>
                                                <p><a id="wg-active-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/1554/2292"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-active-standard -->
                                                                                    <div class="wg-standard wg-active-standard">
                                                <h4 id="wg-active-standard-designation">647-2006</h4>
                                                <h5 id="wg-active-standard-title"
                                                    class="h4">IEEE Standard Specification Format Guide and Test Procedure for Single-Axis Laser Gyros</h5>
                                                <p id="wg-active-standard-description">Specification and test requirements for a single-axis ring laser gyro (RLG) for use as a  sensor in attitude control systems, angular displacement measuring systems, and angular rate  measuring systems are defined. A standard specification format guide for the preparation of a  single-axis RLG is provided. A compilation of recommended procedures for testing an RLG,  derived from those presently used in the industry, is also provided.</p>
                                                <p><a id="wg-active-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/647/3134"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-active-standard -->
                                                                                    <div class="wg-standard wg-active-standard">
                                                <h4 id="wg-active-standard-designation">813-1988</h4>
                                                <h5 id="wg-active-standard-title"
                                                    class="h4">IEEE Specification Format Guide and Test Procedure for Two-Degree-of-Freedom Dynamically Tuned Gyros</h5>
                                                <p id="wg-active-standard-description">A format guide for the preparation of a two-degree-of-freedom dynamically tuned gyro (DTG) specification is given that provides a common ground of terminology and practice for manufacturers and users. A compilation of recommended procedures for testing a DTG is also given. The requirements and test procedures are defined in terms unique to the DTG. They cover applications of the gyro as an angular motion sensor in navigation and control systems. They apply to two modes of use: (1) as a strap-down sensor in operating environments typical of aircraft and missile applications, and (2) as a sensor in gimballed platform applications in which the dynamic angular inputs to which the gyro is subjected are benign relative to the accuracy required. In the case of the strap-down DTG, the characteristics of the external capture loops are considered to the extent necessary to define the gyro performance.</p>
                                                <p><a id="wg-active-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/813/1200"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-active-standard -->
                                                                                    <div class="wg-standard wg-active-standard">
                                                <h4 id="wg-active-standard-designation">952-2020</h4>
                                                <h5 id="wg-active-standard-title"
                                                    class="h4">IEEE Standard for Specifying and Testing Single-Axis Interferometric Fiber Optic Gyros</h5>
                                                <p id="wg-active-standard-description">Specification and test procedures for a single-axis interferometric fiber optic gyro (IFOG) for use as a sensor in attitude control systems, angular displacement measuring systems, and angular rate measuring systems are defined. The test procedures are derived from those presently used in the industry.</p>
                                                <p><a id="wg-active-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/952/7496"
                                                      title="Learn More">Learn More</a>
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                                                <h4 id="wg-superseded-standard-designation">1293-1998/Cor 1-2008</h4>
                                                <h5 id="wg-superseded-standard-title"
                                                    class="h4">IEEE Standard Specification Format Guide and Test Procedure for Linear,Single-Axis, Nongyroscopic Accelerometers Corrigendum 1: Changes to Annex K and Annex L</h5>
                                                <p id="wg-superseded-standard-description">Corrigendum to IEEE Std 1293-1998. Specification and test requirements for linear, single-axis, nongyroscopic accelerometers for use as a sensor in attitude control systems, linear displacement measuring systems, and linear rate measuring systems are defined. The specification format guide and test procedure standard applies to force-rebalance accelerometers (pendulous or translational proof  mass), vibrating beam accelerometers (VBAs), and micromechanical accelerometers that range  from lesser accuracy to high accuracy devices.</p>
                                                <p><a id="wg-superseded-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/1293-1998_Cor_1/4142"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-superseded-standard -->
                                                                                    <div class="wg-standard wg-superseded-standard">
                                                <h4 id="wg-superseded-standard-designation">528-2001</h4>
                                                <h5 id="wg-superseded-standard-title"
                                                    class="h4">IEEE Standard for Inertial Sensor Terminology</h5>
                                                <p id="wg-superseded-standard-description">Terms and definitions relating to inertial senors are presented in this standard. Usage as understood by the inertial sensor community is given preference over general technical usage of the terms herein. The criterion for inclusion of a term and its definition in this standard is usefulness as related to inertial sensor technology.</p>
                                                <p><a id="wg-superseded-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/528/780"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-superseded-standard -->
                                                                                    <div class="wg-standard wg-superseded-standard">
                                                <h4 id="wg-superseded-standard-designation">952-1997</h4>
                                                <h5 id="wg-superseded-standard-title"
                                                    class="h4">IEEE Standard Specification Format Guide and Test Procedure for Single-Axis Interferometric Fiber Optic Gyros</h5>
                                                <p id="wg-superseded-standard-description">Specification and test requirements for a single-axis interferometric fiber optic gyro (IFOG) for use as a sensor in attitude control systems, angular displacement measuring systems, and angular rate measuring systems are defined. A standard specification format guide for the preparation of a single-axis IFOG is provided. A compilation of recommended procedures for testing a fiber optic gyro, derived from those presently used in the industry, is also provided.</p>
                                                <p><a id="wg-superseded-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/952/1320"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-superseded-standard -->
                                                                                    <div class="wg-standard wg-superseded-standard">
                                                <h4 id="wg-superseded-standard-designation">952-1997/Cor 1-2016</h4>
                                                <h5 id="wg-superseded-standard-title"
                                                    class="h4">IEEE Standard Specification Format Guide and Test Procedure for Single-Axis Interferometric Fiber Optic Gyros -- Corrigendum 1: Figure 1 and Subclauses 5.3.4, 8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4, 12.12.3.1, and 12.12.4.1</h5>
                                                <p id="wg-superseded-standard-description">Errors identified in IEEE Std 952-1997 are corrected in this corrigendum. Corrections are made to Figure 1 and in subclauses 5.3.4, 8.3, 12.11.4.3.2, 12.11.4.3.3, 12.11.4.3.4, 12.12.3.1, and 12.12.4.1.</p>
                                                <p><a id="wg-superseded-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/952-1997_Cor_1/6783"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-superseded-standard -->
                                        
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                                                <h4 id="wg-inactive-reserved-standard-designation">1431-2004</h4>
                                                <h5 id="wg-inactive-reserved-standard-title"
                                                    class="h4">IEEE Standard Specification Format Guide and Test Procedure for Coriolis Vibratory Gyros</h5>
                                                <p id="wg-inactive-reserved-standard-description">Specification and test requirements for a single-axis Coriolis vibratory gyro (CVG) for use as a sensor in attitude control systems, angular displacement measuring systems, and angular rate measuring systems are defined.  A stadard specification format guide for the preparation of a single-axis CVG is provided.  A complilation of recommended procedures for testing a CVG, derived from those presently used in the industry, is also provided.  Informative annexes cover CVG design features and theoretical principles of operation.</p>
                                                <p><a id="wg-inactive-reserved-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/1431/3519"
                                                      title="Learn More">Learn More</a>
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                                                                                    <div class="wg-standard wg-inactive-standard">
                                                <h4 id="wg-inactive-reserved-standard-designation">1431-2004/Cor 1-2008</h4>
                                                <h5 id="wg-inactive-reserved-standard-title"
                                                    class="h4">IEEE Standard Specification Format Guide and Test Procedure for Coriolis Vibratory Gyros - Corrigendum 1</h5>
                                                <p id="wg-inactive-reserved-standard-description">Corrigendum to IEEE Std 1431-2004.</p>
                                                <p><a id="wg-inactive-reserved-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/1431-2004_Cor_1/4143"
                                                      title="Learn More">Learn More</a>
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                                                                                    <div class="wg-standard wg-inactive-standard">
                                                <h4 id="wg-inactive-reserved-standard-designation">292-1969</h4>
                                                <h5 id="wg-inactive-reserved-standard-title"
                                                    class="h4">IEEE Specification Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros</h5>
                                                <p id="wg-inactive-reserved-standard-description">This specification defines the requirements for a single-degree-of-freedom spring-restrained rate gyro for [aircraft, missile, spacecraft,______] applications. The rate gyro shall be capable of providing [(dc, ac) voltage outputs proportional to angular rate inputs up to______ degrees per second, a switch closure(s) at angular rates (exceeding,less than)______ (+,-,u00b1)______ degrees per second].</p>
                                                <p><a id="wg-inactive-reserved-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/292/485"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-inactive-reserved standard -->
                                                                                    <div class="wg-standard wg-inactive-standard">
                                                <h4 id="wg-inactive-reserved-standard-designation">293-1969</h4>
                                                <h5 id="wg-inactive-reserved-standard-title"
                                                    class="h4">IEEE Test Procedure for Single-Degree-of-Freedom Spring-Restrained Rate Gyros</h5>
                                                <p id="wg-inactive-reserved-standard-description">Recommended rate gyro test procedures derived from those currently in use, including test conditions to be considered, are compiled. In some cases alternate methods for measuring a performance characteristic have been included. This standard is intended to be a guide in the preparation of Section 4 of a specification that follows the format of IEEE Std 292, Specification Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros.</p>
                                                <p><a id="wg-inactive-reserved-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/293/486"
                                                      title="Learn More">Learn More</a>
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                                                                                    <div class="wg-standard wg-inactive-standard">
                                                <h4 id="wg-inactive-reserved-standard-designation">293-1969/Cor 1-2014</h4>
                                                <h5 id="wg-inactive-reserved-standard-title"
                                                    class="h4">IEEE Standard for IEEE Test Procedure for Single-Degree-of-Freedom Spring-Restrained Rate Gyros -- Corrigendum 1: Table 1 Heading</h5>
                                                <p id="wg-inactive-reserved-standard-description">Correction to Table 1 on page 14 of IEEE Std 293-1969</p>
                                                <p><a id="wg-inactive-reserved-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/293-1969_Cor_1/5750"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-inactive-reserved standard -->
                                                                                    <div class="wg-standard wg-inactive-standard">
                                                <h4 id="wg-inactive-reserved-standard-designation">517-1974</h4>
                                                <h5 id="wg-inactive-reserved-standard-title"
                                                    class="h4">IEEE Standard Specification Format Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating Gyros</h5>
                                                <p id="wg-inactive-reserved-standard-description">A specification format guide for the preparation of a rate-integrating gyro specification that provides a common meeting ground of terminology and practice for manufacturers and users is presented. A compilation of recommended procedures for testing a rate-integrating gyro is given.</p>
                                                <p><a id="wg-inactive-reserved-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/517/760"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-inactive-reserved standard -->
                                                                                    <div class="wg-standard wg-inactive-standard">
                                                <h4 id="wg-inactive-reserved-standard-designation">529-1980</h4>
                                                <h5 id="wg-inactive-reserved-standard-title"
                                                    class="h4">Supplement for Strapdown Applications to IEEE Standard Specification Format Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating Gyros</h5>
                                                <p id="wg-inactive-reserved-standard-description">A specification format guide for the preparation of a rate-integrating gyroscope specification is presented. Recommended procedures for testing a rate-integrating gyroscope are compiled. This standard, when combined with IEEE Std 517-1974 (R1980), defines the requirements and test procedures in terms of characteristics unique to the gyroscope or those applications in which the dynamic angular inputs are significantly greater than the limitations identified in IEEE Std 517.</p>
                                                <p><a id="wg-inactive-reserved-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/529/781"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-inactive-reserved standard -->
                                                                                    <div class="wg-standard wg-inactive-standard">
                                                <h4 id="wg-inactive-reserved-standard-designation">529-1980/Cor 1-2017</h4>
                                                <h5 id="wg-inactive-reserved-standard-title"
                                                    class="h4">IEEE Standard Supplement for Strapdown Applications to IEEE Standard Specification Format Guide and Test Procedure for Single-Degree-of-Freedom Rate-Integrating Gyros - Corrigendum 1: 3.3.9.2.2, 3.6.4.1.1, 3.6.4.1.2, 6.3, and 10.10.4.1</h5>
                                                <p id="wg-inactive-reserved-standard-description">Corrections are made by this corrigendum to material already published in IEEE Std 529-1980.</p>
                                                <p><a id="wg-inactive-reserved-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/529-1980_Cor_1/5780"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-inactive-reserved standard -->
                                                                                    <div class="wg-standard wg-inactive-standard">
                                                <h4 id="wg-inactive-reserved-standard-designation">671-1985</h4>
                                                <h5 id="wg-inactive-reserved-standard-title"
                                                    class="h4">IEEE Standard Specification Format Guide and Test Procedure for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity, and Displacement</h5>
                                                <p id="wg-inactive-reserved-standard-description">A guide is presented for the preparation of a specification and test procedure for an inertial angular sensor that provides a common meeting ground of terminology and practice for manufacturers and users of an array of sensors that have been developed to meet needs not easily met by traditional spinning-rotor gyroscopes. A test procedure for verifying that the specifications have been met is given. The standard is not intended to compete with existing standards for specific devices with highly specific models and error sources, such as spring-restrained rate gyros, but to provide a uniform guide for those inertial angular sensors that have not been covered elsewhere.</p>
                                                <p><a id="wg-inactive-reserved-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/671/926"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-inactive-reserved standard -->
                                                                                    <div class="wg-standard wg-inactive-standard">
                                                <h4 id="wg-inactive-reserved-standard-designation">671-1985/Cor 1-2010</h4>
                                                <h5 id="wg-inactive-reserved-standard-title"
                                                    class="h4">IEEE Standard Specification Format Guide and Test Procedure for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity, and Displacement Corrigendum 1: 4.7.2.6 Short-Term Stability and Annex A Sensor Dynamic Block Diagrams</h5>
                                                <p id="wg-inactive-reserved-standard-description">IEEE Std 671-1985 provides specifications and test requirements for a non-gyroscopic inertial angular sensor that may measure angular jerk, acceleration, rate, or displacement with or without response down to zero frequency. A standard specification format is provided. A compilation of recommended test procedures, derived from those presently used in the industry, is also provided. Informative annexes cover design features and theoretical principles of operation.  This corrigendum makes changes to 4.7.2.6 to delete a sentence that does not belong there, to add a subclause that was inadvertently left out, and to renumber the existing subclauses. Changes are also being made to fix the block diagrams in Annex A, to correct a misspelling of inertia, and to add a missing symbol.</p>
                                                <p><a id="wg-inactive-reserved-standard-url" class="arrow-link"
                                                      href="https://standards.ieee.org/ieee/671-1985_Cor_1/4683"
                                                      title="Learn More">Learn More</a>
                                            </div> <!-- /.wg-standard .wg-inactive-reserved standard -->
                                                                                    <div class="wg-standard wg-inactive-standard">
                                                <h4 id="wg-inactive-reserved-standard-designation">836-2009</h4>
                                                <h5 id="wg-inactive-reserved-standard-title"
                                                    class="h4">IEEE Recommended Practice for Precision Centrifuge Testing of Linear Accelerometers</h5>
                                                <p id="wg-inactive-reserved-standard-description">This recommended practice describes the conduct and analysis of precision tests that are to be performed on linear accelerometers using centrifuge techniques. The term u201cprecision,u201d in this context, refers to tests that are conducted to evaluate accelerometer parameters, as opposed to those conducted to establish environmental survivability only. Evaluation may take the form of determining the coefficients of the accelerometer's model equation, except for bias and scale factor, which are most accurately determined by static multi-position tests. Alternatively, evaluation may only establish that the accelerometer output complies with specific error limit criteria.</p>
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