IEEE 1554 2005

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IEEE Recommended Practice for Inertial Sensor Test Equipment, Instrumentation, Data Acquisition, and Analysis

Published By	Publication Date	Number of Pages
IEEE	2005	115

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Description

New IEEE Standard – Active. Test equipment, data acquisition equipment, instrumentation, test facilities, and data analysis techniques used in inertial sensor testing are described in this recommended practice.

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PDF Pages	PDF Title
1	IEEE Std 1554™-2005, IEEE Recommended Practice for Inertial Sensor Test Equipment, Instrumentation, Data Acquisition, and Analysis
3	Title page
6	Introduction Notice to users Errata Interpretations Patents
7	Participants
8	CONTENTS
13	1. Overview 1.1 Scope
14	1.2 Purpose 2. Normative references 2.1 IEEE standards
15	2.2 ISO standards 2.3 Nuclear radiation test standards
16	3. Test planning 3.1 Classification of tests 3.2 Calibrated parameter characteristics
17	3.3 Test plan outline 3.4 Test station log book
18	4. General equipment 4.1 Calibration of equipment 4.2 Test station power supplies and grounds 4.3 Time and frequency standard
19	4.4 Precision voltage reference 4.5 Voltmeters 4.6 Ammeters and wattmeters 4.7 Resistance references
20	4.8 Magnetic field shielding 4.9 Magnetic field generation and measurement 4.10 Frequency synthesizers
21	4.11 Oscilloscopes 4.12 Spectrum analyzer 4.13 Signal analyzer 4.14 Voltage- or current-to-frequency converters 4.15 Frequency counters
22	4.16 Temperature controllers 4.17 Temperature-monitoring equipment 4.18 Bubble levels and tilt meters
23	4.19 Autocollimator 4.20 Displacement measurement systems
24	4.21 Other general commercial equipment
25	4.22 Specially built equipment 5. Sensor-specific equipment
26	6. Mounting fixture 6.1 Fixture mechanical design 6.2 Thermal control of fixture 6.3 Vibration fixture
27	6.4 Centrifuge fixture 6.5 Radiation test fixture
28	7. Test piers 7.1 Location of test piers 7.2 Vibration environment of test pier 7.3 Tilt and azimuth motion of test pier
29	7.4 Active control of test pad 8. Accelerometer dividing heads (or turntables) 8.1 Use of accelerometer dividing heads
30	8.2 Placement of dividing head 8.3 Thermal control on dividing head
31	8.4 Alignment of dividing head and mounting fixture 8.5 Wiring to dividing head
32	8.6 Rotation of dividing head 8.7 Readout of dividing head angles
33	9. Rate tables 9.1 Use of rate tables 9.2 Single-axis rate table
36	9.3 Two-axis rate table
39	9.4 Three-axis rate tables for inertial sensor assembly (ISA) te
42	10. Vibration and shock equipment 10.1 Use of vibration and shock machines 10.2 Vibrators
46	10.3 Drop shock and hammer shock machines 10.4 Air guns 10.5 Shock and vibration monitors
49	11. Centrifuge 11.1 Use of centrifuges 11.2 Lesser accuracy and high-speed centrifuges
50	11.3 Precision centrifuge
51	11.4 Double turntable centrifuge 11.5 Centrifuge instrumentation
54	11.6 Other rotating inertial sensor test equipment
55	12. Environmental chambers 12.1 Thermal control on a test table, vibrator, or centrifuge
56	12.2 Refrigerated and heated chambers 12.3 Barometric chambers 12.4 Equipment for electromagnetic susceptibility and emissions t
57	12.5 Acoustic absorption and generation 12.6 Other environmental chambers 13. Nuclear radiation effects testing 13.1 Use of nuclear radiation testing
58	13.2 Basis of radiation testing requirements (radiation effects)
59	13.3 TID effects testing 13.4 Ionizing dose rate effects testing
60	13.5 Displacement damage effects testing (neutron and protons)
61	13.6 SEE testing 13.7 TME testing
62	14. Counter and frequency readouts 14.1 Counters and continuous counters
63	14.2 Period readouts 14.3 Frequency readouts 14.4 Phase-locked loops (PLLs)
64	14.5 Other ways of reading out frequency 15. A/D conversion readouts 15.1 Commercial voltmeters 15.2 A/D converters 15.3 Voltage- and current-to-frequency converters
65	16. Temperature monitoring 16.1 General comments 16.2 Calibration of temperature readout
66	16.3 Types of temperature monitors 17. Other monitoring and commanding 17.1 Analog input signals and signal conditioning 17.2 Analog output signals
67	17.3 Asynchronous interfaces 17.4 Digital input and output signals 17.5 Microprocessor interfaces 17.6 IEEE 488 bus 17.7 Other interface buses
68	17.8 Radio telemetry interfaces 18. Computer data acquisition, control, filtering, and storage 18.1 Real-time operation 18.2 Initialization and running of test
70	18.3 Interfaces to computer backplane 18.4 Experiment control and automatic test equipment 18.5 Acquired signals
71	18.6 Event recording 18.7 Real-time digital filtering
74	18.8 Data storage
75	18.9 Data transmission 19. Data analysis 19.1 Data file format
76	19.2 Plots versus time
78	19.3 Plots of one channel versus another 19.4 Polynomial and other linear least-squares-fit residual plots
81	19.5 Power spectral density (PSD)
84	19.6 Allan variance
87	19.7 Noise processes
90	19.8 Time series to verify PSD and Allan variance software
96	19.9 Allan variance autofit procedure 19.10 Regression analysis and cross PSD
97	19.11 Parameter estimation
99	19.12 Analysis of gyroscope and accelerometer drift data 19.13 Analysis of data with varying test conditions
104	19.14 Database of test results
105	20. Geophysics instrumentation 20.1 Gravimeters
106	20.2 Tilt and azimuth motion 20.3 Seismometers
107	20.4 Gyrocompass 20.5 Surveying and global positioning system (GPS) positioning
110	20.6 Star sightings
111	21. Calibration of test equipment and instrumentation 21.1 Site coordinates, gravity, and components of earth’s rotatio 21.2 Time and frequency references
112	21.3 Calibration of electrical equipment 21.4 Calibration of temperature-measuring instrumentation 21.5 Calibration of other equipment
114	Annex A (informative) Bibliography

Additional information

Standard Title	IEEE Recommended Practice for Inertial Sensor Test Equipment, Instrumentation, Data Acquisition, and Analysis
Published Code	IEEE
Publication Date	2005
Pages Count	115

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