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Palladium Power Density

Palladium Power Density, Total:495 items.

In the international standard classification, Palladium Power Density involves: Electrical and electronic testing, Road vehicle systems, Telecommunication terminal equipment, Optoelectronics. Laser equipment, Acoustics and acoustic measurements, Galvanic cells and batteries, Construction materials, Metalliferous minerals, Electricity. Magnetism. Electrical and magnetic measurements, Television and radio broadcasting, Electronic tubes, Radiocommunications, Radiation protection, Radiation measurements, Electrical accessories, Fuels, Mining and quarrying, IT terminal and other peripheral equipment, Organic chemicals, Refractories, Components for electrical equipment, Ceramics, Solar energy engineering, Energy and heat transfer engineering in general, Sports equipment and facilities, Document imaging applications, Road engineering, Rotating machinery, Compressors and pneumatic machines, Refrigerating technology, Inorganic chemicals, Industrial automation systems, Non-destructive testing, Powder metallurgy, Transport, Equipment for petroleum and natural gas industries, Small craft, Nuclear energy engineering, Earthworks. Excavations. Foundation construction. Underground works, Metrology and measurement in general, Testing of metals, Hydraulic energy engineering, Semiconductor devices, Materials for aerospace construction, Fertilizers, Products of the chemical industry, Integrated circuits. Microelectronics, Electromagnetic compatibility (EMC), Petroleum products in general, Crude petroleum, Products of the textile industry, Quality, Soil quality. Pedology, Shipbuilding and marine structures in general, Insulating materials, Fluid power systems, Air quality, Resistors, Tobacco, tobacco products and related equipment.

IPC - Association Connecting Electronics Industries, Palladium Power Density

• IPC TM-650 2.5.34-2012 Power Density Rating for Embedded Resistors

ESDU - Engineering Sciences Data Unit, Palladium Power Density

• ESDU 17011-2018 Power Spectral Density and Bandwidth Correction of Spectrum Level
• ESDU 68023-1978 Thermal conductivity@ viscosity@ heat capacity@ density and Prandtl number of solid@ liquid and gaseous heavy water.

International Telecommunication Union (ITU), Palladium Power Density

• ITU-R SF.675-3-1994 Calculation of the Maximum Power Density (Averaged Over 4 kHz) of an Angle-Modulated Carrier
• ITU-R S.1718-2005 Power flux-density values in the band 11.7-12.7 GHz and associated calculation methodology which may be used when the power flux-density values in § 6 of Annex 1 to Appendix 30 of the Radio Regulations are exceeded Question ITU-R 236/4
• ITU-R SF.675-3 FRENCH-1994 CALCULATION OF THE MAXIMUM POWER DENSITY (AVERAGED OVER 4 kHz) OF AN ANGLE-MODULATED CARRIER CALCUL DE LA DENSIT?MAXIMALE DE PUISSANCE (MOYENNE DANS UNE BANDE DE 4 kHz) D'UNE ONDE PORTEUSE ?MODULATION ANGULAIRE
• ITU-R SF.675-3 SPANISH-1994 CALCULATION OF THE MAXIMUM POWER DENSITY (AVERAGED OVER 4 kHz) OF AN ANGLE-MODULATED CARRIER C罫CULO DE LA DENSIDAD DE POTENCIA M罼IMA (VALOR MEDIO EN UNA BANDA DE 4 kHz) DE UNA PORTADORA CON MODULACI覰 ANGULAR
• ITU-T G.9700-2014 Fast access to subscriber terminals (G.fast) - Power spectral density specification
• ITU-R BO.1697-2005 Power flux-density values in the band 11.7-12.7 GHz and associated calculation methodology which may be used for bilateral coordination when the power flux-density values in § 3 of Annex 1 to Appendix 30 or Annex 4 to Appendix 30 of the Radio Regulations
• ITU-R REPORT RA.2188-2010 Power flux-density and e.i.r.p. levels potentially damaging to radio astronomy receivers
• ITU-R BO.1697 FRENCH-2005 Power flux-density values in the band 11.7-12.7 GHz and associated calculation methodology which may be used for bilateral coordination when the power flux-density values in § 3 of Annex 1 to Appendix 30 or Annex 4 to Appendix 30 of the Radio Regulations
• ITU-R BO.1697 SPANISH-2005 Power flux-density values in the band 11.7-12.7 GHz and associated calculation methodology which may be used for bilateral coordination when the power flux-density values in § 3 of Annex 1 to Appendix 30 or Annex 4 to Appendix 30 of the Radio Regulations
• ITU-R SF.675-2012 Calculation of the maximum power density (averaged over 4 kHz or 1 MHz) of angle-modulated and digital carriers
• ITU-R BO.1776-2012 Maximum power flux-density for the broadcasting-satellite service in the band 21.4-22.0 GHz in Regions 1 and 3
• ITU-R S.1718 SPANISH-2005 Power flux-density values in the band 11.7-12.7 GHz and associated calculation methodology which may be used when the power flux-density values in section 6 of Annex 1 to Appendix 30 of the Radio Regulations are exceeded
• ITU-R S.1718 FRENCH-2005 Power flux-density values in the band 11.7-12.7 GHz and associated calculation methodology which may be used when the power flux-density values in section 6 of Annex 1 to Appendix 30 of the Radio Regulations are exceeded
• ITU-R BO.1776-2006 Reference power flux-density for the broadcasting-satellite service in the band 21.4-22.0 GHz in Regions 1 and 3
• ITU-R SF.675-4-2012 Calculation of the maximum power density (averaged over 4 kHz or 1 MHz) of angle-modulated and digital carriers
• ITU-R S.1433-2000 UPLINK AND INTER-SATELLITE EQUIVALENT POWER FLUX-DENSITY RADIATED BY NON-GSO FSS SYSTEMS
• ITU-T G.9901-2014 Narrowband orthogonal frequency division multiplexing power line communication transceivers - Power spectral density specification
• ITU-T G.9964-2011 Unified high-speed wireline-based home networking transceivers – Power spectral density specification (Study Group 15)
• ITU-R BO.1776-1-2012 Maximum power flux-density for the broadcasting-satellite service in the band 21.4-22.0 GHz in Regions 1 and 3
• ITU-R QUESTION 2784-2009 Use of operational facilities to meet power flux-density limitation under Article 21 of the Radio Regulations
• ITU-R QUESTION 278/4-2009 Use of operational facilities to meet power flux-density limitation under Article 21 of the Radio Regulations
• ITU-T G.9964 AMD 1-2016 Unified high-speed wireline-based home networking transceivers – Power spectral density specification Amendment 1 (Study Group 15)
• ITU-R S.1065-1994 Power Flux-Density Values to Facilitate the Application of RR Article 14 for the FSS in Region 2 in Relation to the BSS in the Band 11.7-12.2 GHz
• ITU-R BO.1658 FRENCH-2003 Continuous curves of epfd. versus the geostationary broadcasting-satellite service earth station antenna diameter to indicate the protection afforded by systems complying with the limits of antennas with diameters other than those in Article 22 of the Rad
• ITU-R SF.1484-1-2002 Maximum allowable values of power flux-density at the surface of the Earth produced by non-geostationary satellites in the fixed-satellite service operating in the 37.5-42.5 GHz band to protect the fixed service
• ITU-R SF.1573-2002 Maximum allowable values of power flux-density at the surface of the Earth by geostationary satellites in the fixed-satellite service operating in the 37.5-42.5 GHz band to protect the fixed service
• ITU-R F.1765-2006 Methodology for determining the aggregate equivalent isotropically radiated power from point-to-point high-density applications in the fixed service operating in bands above 30 GHz
• ITU-R F.1765 FRENCH-2006 Methodology for determining the aggregate equivalent isotropically radiated power from point-to-point high-density applications in the fixed service operating in bands above 30 GHz
• ITU-R F.1765 SPANISH-2006 Methodology for determining the aggregate equivalent isotropically radiated power from point-to-point high-density applications in the fixed service operating in bands above 30 GHz
• ITU-T G.9901 AMD 1-2013 Narrow-band orthogonal frequency division multiplexing power line communication transceivers Power spectral density specification Amendment 1 Study Group 15
• ITU-R M.496-1992 Limits of power flux-density of radionavigation transmitters to protect space station receivers in the fixed-satellite service in the 14 GHz band
• ITU-R F.1403-1999 Power Flux-Density Criteria in ITU-R Recommendations for Protection of Systems in the Fixed Service Shared with Space Stations of Various Space Services
• ITU-R S.1426-2000 AGGREGATE POWER FLUX-DENSITY LIMITS AT THE FSS SATELLITE ORBIT FOR RADIO LOCAL AREA NETWORK (RLAN) TRANSMITTERS OPERATING IN THE 5 150-5 250 MHz BAND SHARING FREQUENCIES WITH THE FSS (RR No. S5.447A)
• ITU-R SF.1602-2002 Methodology for determining power flux-density statistics for use in sharing studies between fixed wireless systems and multiple fixed-satellite service satellites
• ITU-R SF.1602 FRENCH-2002 Methodology for determining power flux-density statistics for use in sharing studies between fixed wireless systems and multiple fixed-satellite service satellites
• ITU-R SF.1602 SPANISH-2002 Methodology for determining power flux-density statistics for use in sharing studies between fixed wireless systems and multiple fixed-satellite service satellites
• ITU-R SF.1602-2003 Methodology for determining power flux-density statistics for use in sharing studies between fixed wireless systems and multiple fixed-satellite service satellites
• ITU-R S.1714-2005 Static methodology for calculating epfd to facilitate coordination of very large antennas under Nos. 9.7A and 9.7B of the Radio Regulations
• ITU-R S.1433 FRENCH-2000 UPLINK AND INTER-SATELLITE EQUIVALENT POWER FLUX-DENSITY RADIATED BY NON-GSO FSS SYSTEMS
• ITU-R S.1433 SPANISH-2000 UPLINK AND INTER-SATELLITE EQUIVALENT POWER FLUX-DENSITY RADIATED BY NON-GSO FSS SYSTEMS
• ITU-R BO.1517-2001 Equivalent Power Flux-Density Limits epfd to Protect the Broadcasting-Satellite Service in the 12 GHz Band from Interference Caused by Non-Geostationary Fixed-Satellite Service Systems
• ITU-R F.1403 FRENCH-1999 POWER FLUX-DENSITY CRITERIA IN ITU-R RECOMMENDATIONS FOR PROTECTION OF SYSTEMS IN THE FIXED SERVICE SHARED WITH SPACE STATIONS OF VARIOUS SPACE SERVICES
• ITU-R F.1403 SPANISH-1999 POWER FLUX-DENSITY CRITERIA IN ITU-R RECOMMENDATIONS FOR PROTECTION OF SYSTEMS IN THE FIXED SERVICE SHARED WITH SPACE STATIONS OF VARIOUS SPACE SERVICES
• ITU-R S.1559 SPANISH-2002 Methodology for computing the geographical distribution of maximum downlink equivalent power flux-density levels generated by non- geostationary fixed-satellite service systems using circular orbits
• ITU-R M.496-3 FRENCH-1992 LIMITS OF POWER FLUX-DENSITY OF RADIONAVIGATION TRANSMITTERS TO PROTECT SPACE STATION RECEIVERS IN THE FIXED-SATELLITE SERVICE IN THE 14 GHz BAND
• ITU-R M.496-3 SPANISH-1992 LIMITS OF POWER FLUX-DENSITY OF RADIONAVIGATION TRANSMITTERS TO PROTECT SPACE STATION RECEIVERS IN THE FIXED-SATELLITE SERVICE IN THE 14 GHz BAND
• ITU-R F.1760 SPANISH-2006 Methodology for the calculation of aggregate equivalent isotropically radiated power (a.e.i.r.p.) distribution from point-to-multipoint high-density applications in the fixed service operating in bands above 30 GHz identified for such use
• ITU-R F.1760-2006 Methodology for the calculation of aggregate equivalent isotropically radiated power (a.e.i.r.p.) distribution from point-to-multipoint high-density applications in the fixed service operating in bands above 30 GHz identified for such use
• ITU-R F.1760 FRENCH-2006 Methodology for the calculation of aggregate equivalent isotropically radiated power (a.e.i.r.p.) distribution from point-to-multipoint high-density applications in the fixed service operating in bands above 30 GHz identified for such use
• ITU-R S.1426 SPANISH-2000 AGGREGATE POWER FLUX-DENSITY LIMITS, AT THE FSS SATELLITE ORBIT FOR RADIO LOCAL AREA NETWORK (RLAN) TRANSMITTERS OPERATING IN THE 5 150-5 250 MHz BAND SHARING FREQUENCIES WITH THE FSS (RR No. S5.447A)
• ITU-R S.1588-2002 Methodologies for calculating aggregate downlink equivalent power flux-density produced by multiple non-geostationary fixed-satellite service systems into a geostationary fixed-satellite service network*
• ITU-R S.1588 SPANISH-2002 Methodologies for calculating aggregate downlink equivalent power flux-density produced by multiple non-geostationary fixed-satellite service systems into a geostationary fixed-satellite service network
• ITU-R S.1857 FRENCH-2010 Methodologies to estimate the off-axis e.i.r.p. density levels and to assess the interference towards adjacent satellites resulting from pointing errors of vehicle-mounted earth stations in the 14 GHz frequency band
• ITU-R S.1857 SPANISH-2010 Methodologies to estimate the off-axis e.i.r.p. density levels and to assess the interference towards adjacent satellites resulting from pointing errors of vehicle-mounted earth stations in the 14 GHz frequency band
• ITU-R SF.674-2013 Determination of the impact on the fixed service operating in the 11.7-12.2 GHz band when geostationary fixed-satellite service networks in Region 2 exceed power flux-density thresholds for coordination
• ITU-R F.1820-2007 Power flux-density at international borders for high altitude platform stations providing fixed wireless access services to protect the fixed service in neighbouring countries in the 47.2-47.5 GHz and 47.9-48.2 GHz bands
• ITU-R F.1820 SPANISH-2007 Power flux-density at international borders for high altitude platform stations providing fixed wireless access services to protect the fixed service in neighbouring countries in the 47.2-47.5 GHz and 47.9-48.2 GHz bands
• ITU-R F.1820 FRENCH-2007 Power flux-density at international borders for high altitude platform stations providing fixed wireless access services to protect the fixed service in neighbouring countries in the 47.2-47.5 GHz and 47.9-48.2 GHz bands
• ITU-R SA.1273 FRENCH-1997 POWER FLUX-DENSITY LEVELS FROM THE SPACE RESEARCH, SPACE OPERATION AND EARTH EXPLORATION-SATELLITE SERVICES AT THE SURFACE OF THE EARTH REQUIRED TO PROTECT THE FIXED SERVICE IN THE BANDS 2 025-2 110 MHz AND 2 200-2 290 MHz
• ITU-R SA.1273 SPANISH-1997 POWER FLUX-DENSITY LEVELS FROM THE SPACE RESEARCH, SPACE OPERATION AND EARTH EXPLORATION-SATELLITE SERVICES AT THE SURFACE OF THE EARTH REQUIRED TO PROTECT THE FIXED SERVICE IN THE BANDS 2 025-2 110 MHz AND 2 200-2 290 MHz
• ITU-R SF.674-3-2013 Determination of the impact on the fixed service operating in the 11.7-12.2 GHz band when geostationary fixed-satellite service networks in Region 2 exceed power flux-density thresholds for coordination

Society of Automotive Engineers (SAE), Palladium Power Density

• SAE J2556-2000 Radiated Emissions (RE) Narrowband Data Analysis Power Spectral Density (PSD)
• SAE J2556-2010 Radiated Emissions (RE) Narrowband Data Analysis Power Spectral Density (PSD)
• SAE J2556-2014 Radiated Emissions (RE) Narrowband Data Analysis - Power Spectral Density (PSD)
• SAE J2556-2005 Radiated Emissions (RE) Narrowband Data Analysis—Power Spectral Density (PSD)
• SAE J3039-2020 Definition and Measurement of Power Transfer Unit Speed-Dependent Parasitic Loss
• SAE AMS3843C-1986 Polytetrafluoroethylene Sheet-Asbestos Fiber Reinforced High Compressibility, Low Density

Institute of Electrical and Electronics Engineers (IEEE), Palladium Power Density

• IEEE 2889-2021 IEEE Guide for the Definition of Incident Power Density to Correlate Surface Temperature Elevation
• IEEE Std 2889-2021 IEEE Guide for the Definition of Incident Power Density to Correlate Surface Temperature Elevation
• IEEE P2889/D0.04, July 2021 IEEE Draft Guide on the Definition of Incident Power Density to Correlate Surface Temperature Elevation
• IEEE P2889/D0.03, May 2021 IEEE Draft Guide on the Definition of Incident Power Density to Correlate Surface Temperature Elevation
• IEEE P2889/D0.05, August 2021 IEEE Approved Draft Guide for the Definition of Incident Power Density to Correlate Surface Temperature Elevation
• IEC/IEEE P63195/ED1, 2018 IEC/IEEE International Draft Standard - Measurement procedure for the assessment of power density of human exposure to radio frequency fields from wireless devices operating in close proximity to the head and body - Frequency range of 6 GHz to 300 GHz
• IEC/IEEE 63195-1 IEEE/IEC International Standard Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz)--Part 1: Measurement procedure
• IEC/IEEE P63195_CDV/V3, February 2020 IEEE/IEC Draft Standard Measurement procedure for the assessment of power density of human exposure to radio frequency fields from wireless devices operating in close proximity to the head and body - Frequency range of 6 GHz to 300 GHz
• IEEE/IEC 63195-2-2022 IEC/IEEE International Standard - Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz)--Part 2: Computational procedure
• IEEE/IEC 63195-1-2022 IEEE/IEC International Standard Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz)--Part 1: Measurement procedure
• IEC/IEEE 63195-2 IEC/IEEE International Standard - Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz)--Part 2: Computational procedure
• IEEE/IEC P63195-2/D9, December 2021 IEC/IEEE International Draft Standard - Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body - Part 2: Computational Procedure (Frequency range of 6 GHz to 300 GHz)
• IEC/IEEE P63195-2 ED3, February 2021 IEC/IEEE International Draft Standard - Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body - Part 2: Computational Procedure (Frequency range of 6 GHz to 300 GHz)
• IEC/IEEE P63195-2 ED2, February 2020 IEC/IEEE International Draft Standard - Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body - Part 2: Computational Procedure (Frequency range of 6 GHz to 300 GHz)
• IEC/IEEE P63195_FDIS, January 2021 IEEE/IEC International Draft Standard - Measurement procedure for the assessment of power density of human exposure to radio frequency fields from wireless devices operating in close proximity to the head and body - Frequency range of 6 GHz to 300 GHz
• IEEE/IEC P63195-2 ED4, March 2021 IEC/IEEE International Draft Standard - Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body - Part 2: Computational Procedure (Frequency range of 6 GHz to 300 GHz)
• IEC/IEEE P63195-2:2021 IEC/IEEE International Draft Standard - Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body - Part 2: Computational Procedure (Frequency range of 6 GHz to 300 GHz)
• IEC/IEEE P63195-2_FDIS, October 2021 IEC/IEEE International Draft Standard - Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body - Part 2: Computational Procedure (Frequency range of 6 GHz to 300 GHz)
• IEC/IEEE P63195-2 FDIS, January 2021 IEEE International Draft Standard - Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body - Part 2: Computational Procedure (Frequency range of 6 GHz to 300 GHz)
• ISO/IEC/IEEE P63195-1/D7, December 2021 IEEE/IEC International Draft Standard - Measurement procedure for the assessment of power density of human exposure to radio frequency fields from wireless devices operating in close proximity to the head and body - Frequency range of 6 GHz to 300 GHz
• IEC/IEEE P63195-1_FDIS, October 2021 IEEE/IEC International Draft Standard - Measurement procedure for the assessment of power density of human exposure to radio frequency fields from wireless devices operating in close proximity to the head and body - Frequency range of 6 GHz to 300 GHz

ITU-R - International Telecommunication Union/ITU Radiocommunication Sector, Palladium Power Density

• ITU-R SF.675-2-1993 Calculation of the Maximum Power Density (Averaged Over 4 KHs) of an Angle-Modulated Carrier
• ITU-R SF.675-1-1992 Calculation of the Maximum Power Density (Averaged over 4 kHz) of an Angle-Modulated Carrier 4/9B - Co-Ordination and Interference Calculations
• REPORT RA.2188-2010 Power flux-density and e.i.r.p. levels potentially damaging to radio astronomy receivers
• QUESTION 278/4-2009 Use of operational facilities to meet power flux-density limitation under Article 21 of the Radio Regulations
• ITU-R SF.675-1990 Calculation of the Maximum Power Density (Averaged over 4 kHz) of a Frequency-Modulated FDM Carrier - Section 4/9B - Co-Ordination and Interference Calculations
• ITU-R SF.674-1-1997 Power Flux-Density Values to Facilitate the Application of Article 14 of the Radio Regulations for FSS in Relation to the Fixed-Satellite Service in the 11.7-12.2 GHz Band in Region 2
• ITU-R SF.674-1990 Power Flux-Density Values to Facilitate the Application of Article 14 for FSS in Relation to the Fixed-Satellite Service in the 11.7-12.2 GHz Band in Region 2 - Section 4/9A - Sharing Conditions

Military Standard of the People's Republic of China-General Armament Department, Palladium Power Density

• GJB 8446-2015 Specification for 0W-40 high power density engine oil used on tank
• GJB 3090-1997 Radar feeder subsystem performance test method power distribution ratio, isolation, air tightness

American Gear Manufacturers Association, Palladium Power Density

• AGMA 05FTM18-2005 Planet Pac: Increasing Epicyclic Power Density and Performance Through Integration

RU-GOST R, Palladium Power Density

• GOST 25917-1983 Lasers. Methods for measurement of relative distribution of radiant energy (power)
• GOST 8.569-2000 State system for ensuring the uniformity of measurements. Low power SHF vattmeters of frequency range 0,02-178,6 GHz. Verification and calibration methods
• GOST R 50005-1992 Lasers and solid-state laser heads. Measurement methods of peak local energy (power) density
• GOST R IEC 61853-1-2013 Photovoltaic modules. Determination of performance testing and energy rating. Part 1. Irradiance and temperature performance measurement according to irradiance and temperature. Power rating
• GOST 30457.3-2006 Acoustics. Determination of sound power levels of noise sources using sound intensity. Part 3. Precision method for measurement by scanning
• GOST R ISO 13694-2010 Optics and optical instruments. Laser and laser-related equipment. Test methods for laser beam power (energy) density distribution
• GOST 34184-2017 Electric power systems. Operational dispatching control. Frequency control and control of active power in interconnected power system. General requirements
• GOST 25714-1983 Non-destructive control. Acoustic sound method of open porosity, apparent density, density and compression strength testing of refractory articles
• GOST 2409-1995 Refractories. Method for determination of bulk density apparent and true porosity, water absorbtion
• GOST 2409-2014 Refractories. Method for determination of bulk density, apparent and true porosity, water absorption
• GOST 2409-1980 Refractory materials and articles. Method of water absorption, bulk density, apparent and true porosities determination
• GOST 8.037-1981 State system for ensuring the uniformity of measurements. State primary standard and state verifications schedule for noise power spectral density measuring instruments within the frequency range fro 1,0 up to 37,5 ghz
• GOST 8.197-2013 State system for ensuring the uniformity of measurements. State verification scheme for instruments measuring of the spectral radiance, spectral radiant power, spectral irradiance, spectral radiant intensity, power and radiant intensity in spectral range
• GOST 21106.3-1976 Oscillator tubes with anode dissipation above 25 W. Method of electric strength test
• GOST R 56969-2016 United power system and isolated power systems. Operative-dispatch management. Ensuring coordinated operation of centralized systems of automatic control of frequency and active power flows and automatic management of active power of hydroelectric power s
• GOST 21106.4-1976 Modulator flash tubes with anode dissipation above 25 W. Method of electric strength test
• GOST 18276.4-1988 Machine-made textile floor coverings and carpet products. Method for determination of surface density of bonding
• GOST R IEC 61650-2007 Reliability in techniques. Procedures for comparison of constant failure rates and constant failure intensities
• GOST R ISO 3741-2013 Acoustics. Determination of sound power levels and sound energy levels of noise sources using sound pressure. Precision methods for reverberation test rooms
• GOST 12175-1990 Common test methods insulating and sheathing materials of electric cables. Methods for determining the density. Water absorption and shrinkage tests
• GOST 14618.10-1978 Essential oils, aromatics and their intermediates. Methods for determination of density and refractive index
• GOST ISO 16902-1-2006 Noise of machines. Engineering method for determination of the sound power levels of pumps using sound intensity techniques

AGMA - American Gear Manufacturers Association, Palladium Power Density

• 05FTM18-2005 Planet Pac: Increasing Epicyclic Power Density and Performance Through Integration

Korean Agency for Technology and Standards (KATS), Palladium Power Density

• KS A 0704-1990(2000) PRECISION METHODS FOR THE DETERMINATION OF SOUND POWER LEVEL IN REVERBERATION ROOMS
• KS C 3390-2022 Power density measurement method of the portable wireless transmission equipment operating above 6 GHz
• KS E ISO 1014-2002(2017) Metallic and other non-organic coatings－Measurement of coating thicknesses－Fizeau multiple-beam interferometry method
• KS E ISO 1014:2002 Coke-Determination of true relative density, apparent relative density and porosity
• KS E ISO 1014:2022 Coke — Determination of true relative density, apparent relative density and porosity
• KS L ISO 5017-2013(2018) Dense shaped refractory products?Determination of bulk density, apparent porosity and true porosity
• KS L ISO 5017:2013 Dense shaped refractory products ? Determination of bulk density, apparent porosity and true porosity
• KS F 2503-2007 Testing method for density and absorption of coarse aggregate
• KS F 2503-1982 Testing method for density and absorption of coarse aggregate
• KS F 2503-2019 Standard test method for density and water absorption of coarse aggregates
• KS F 2518-2020 Standard test method for density and water absorption rate of natural stone
• KS L 3114-1995 Testing method for apparent prosity,water absorption and specific gravity of fire beicks
• KS B ISO 13694-2015(2020) Optics and optical instruments — Lasers and laser-related equipment — Test methods for laser beam power[energy] density distribution
• KS A ISO 9278:2012 Nuclear energy-Uranium dioxide pellets-Determination of density and volume fraction of open and closed porosity
• KS A ISO 9278:2014 Nuclear energy — Uranium dioxide pellets — Determination of density and volume fraction of open and closed porosity
• KS F 2459-2017(2022) Testing methods for density, water content,absorption and compressive strength of cellular concrete
• KS V ISO 11592-2006(2021) Small craft less than 8 m length of hull－Determination of maximum propulsion power rating
• KS V ISO 11592-2006(2016) Small craft less than 8 m length of hull－Determination of maximum propulsion power rating
• KS A ISO 9279:2012 Uranium dioxide pellets－Determination of density and total porosity－Mercury displacement method
• KS A ISO 9279-2012(2017) Uranium dioxide pellets－Determination of density and total porosity－Mercury displacement method
• KS V ISO 11592:2006 Small craft less than 8 m length of hull－Determination of maximum propulsion power rating
• KS L 4008-2006(2021) Testing method for water absorption, bulk density, apparent specific gravity and apparent porosity of fired whiteware products
• KS E ISO 15968-2017(2022) Direct reduced iron－Determination of apparent density and water absorption of hot briquetted iron(HBI)
• KS E ISO 15968:2012 Direct reduced iron-Determination of apparent density and water absorption of hot briquetted iron(HBI)
• KS E ISO 15968:2017 Direct reduced iron－Determination of apparent density and water absorption of hot briquetted iron(HBI)
• KS F 2529-2017 Methods of test for particle density and water absorption of light weight fine aggregates for structural concrete
• KS F 2533-2017 Methods of test for particle density and water absorption of light weight coarse aggregates for structural concrete
• KS K ISO 2649:2009 Wool－Determination of short-term irregularity of linear density of slivers, rovings and yarns, by means of an electronic evenness tester
• KS F 2533-2017(2022) Methods of test for particle density and water absorption of light weight coarse aggregates for structural concrete
• KS F 2529-2017(2022) Methods of test for particle density and water absorption of light weight fine aggregates for structural concrete

Taiwan Provincial Standard of the People's Republic of China, Palladium Power Density

• CNS 14386.13-2000 Energy and power density test procedure for batteries of electric motorcycles
• CNS 14386-13-2000 Energy and power density test procedure for batteries of electric motorcycles
• CNS 14654-2002 Acoustics - Determination of sound power levels of noise sources using sound pressure - Precision methods for reverberation rooms
• CNS 14657-2002 Acoustics - Determination of sound power levels of noise sources - Precision methods for anechoic and semi-anechoic rooms

ES-UNE, Palladium Power Density

• UNE-EN IEC 62232:2022 Determination of RF field strength, power density and SAR in the vicinity of base stations for the purpose of evaluating human exposure (Endorsed by Asociación Española de Normalización in January of 2023.)
• UNE-EN IEC/IEEE 63195-2:2023 Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz) - Part 2: Computational procedure (Endorsed by Asociación Española de Normaliz...
• UNE-EN IEC/IEEE 63195-1:2023 Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz) - Part 1: Measurement procedure (Endorsed by Asociación Española de Normalizac...
• UNE-EN ISO 10545-3:2018 Ceramic tiles - Part 3: Determination of water absorption, apparent porosity, apparent relative density and bulk density (ISO 10545-3:2018)
• UNE-EN 62232:2017 Determination of rf field strength, power density and sar in the vicinity of radiocommunication base stations for the purpose of evaluating human exposure (Endorsed by Asociación Española de Normalización in January of 2018.)
• UNE-EN ISO 13694:2018 Optics and photonics - Lasers and laser-related equipment - Test methods for laser beam power (energy) density distribution (ISO 13694:2018) (Endorsed by Asociación Española de Normalización in February of 2019.)
• UNE-EN 772-4:1999 METHODS OF TEST FOR MASONRY UNITS - PART 4: DETERMINATION OF REAL AND BULK DENSITY AND OF TOTAL AND OPEN POROSITY FOR NATURAL STONE MASONRY UNITS
• UNE-EN 993-1:2018 Methods of test for dense shaped refractory products - Part 1: Determination of bulk density, apparent porosity and true porosity (Endorsed by Asociación Española de Normalización in January of 2019.)

British Standards Institution (BSI), Palladium Power Density

• BS EN ISO 10545-3:1997 Ceramic tiles. Determination of water absorption, apparent porosity, apparent relative density and bulk density
• BS EN IEC 62232:2022 Determination of RF field strength, power density and SAR in the vicinity of base stations for the purpose of evaluating human exposure
• BS ISO 1014:2021 Coke. Determination of true relative density, apparent relative density and porosity
• BS EN ISO 10545-3:2018 Tracked Changes. Ceramic tiles. Determination of water absorption, apparent porosity, apparent relative density and bulk density
• 21/30423448 DC BS ISO 1014. Coke. Determination of true relative density, apparent relative density and porosity
• BS EN ISO 13694:2015 Optics and photonics. Lasers and laser-related equipment. Test methods for laser beam power (energy) density distribution
• BS EN ISO 13694:2001 Optics and optical instruments. Lasers and laser-related equipment. Test methods for laser beam power (energy) density distribution
• 17/30357750 DC BS ISO 17785-2. Testing methods for pervious concrete. Part 2. Density and void content - Part 2: Density and void content
• BS IEC/IEEE 63195-2:2022 Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz). Computational procedure
• PD IEC PAS 63446:2022 Conversion method of specific absorption rate to absorbed power density for the assessment of human exposure to radio frequency electromagnetic fields from wireless devices in close proximity to the head and body. Frequency range of 6 GHz to 10 GHz
• BS ISO 17785-2:2018 Testing methods for pervious concrete - Density and void content
• BS EN 993-1:2018 Tracked Changes. Methods of test for dense shaped refractory products. Determination of bulk density, apparent porosity and true porosity
• PD IEC TR 62669:2019 Tracked Changes. Case studies supporting IEC 62232. Determination of RF field strength, power density and SAR in the vicinity of radiocommunication base stations for the purpose of evaluating human exposure
• BS EN 14617-1:2013 Agglomerated stone. Test methods. Determination of apparent density and water absorption
• BS EN 14617-1:2005 Agglomerated stone - Test methods - Determination of apparent density and water absorption
• BS EN ISO 13694:2018 Tracked Changes. Optics and photonics. Lasers and laser-related equipment. Test methods for laser beam power (energy) density distribution
• BS EN 1936:2006 Natural stone test methods — Determination of real density and apparent density, and of total and open porosity
• BS EN 1936:2007 Natural stone test methods - Determination of real density and apparent density, and of total and open porosity
• 18/30376560 DC BS IEC 63195. Measurement procedure for the assessment of power density of human exposure to radio frequency fields from wireless devices operating in close proximity to the head and body. Frequency range of 6 GHz to 300 GHz
• PD IEC TR 63170:2018 Measurement procedure for the evaluation of power density related to human exposure to radio frequency fields from wireless communication devices operating between 6 GHz and 100 GHz
• BS ISO 15968:2016 Direct reduced iron. Determination of apparent density and water absorption of hot briquetted iron (HBI)
• BS EN 62132-4:2006 Integrated circuits - Measurement of electromagnetic immunity - 150 kHz to 1 GHz - Direct RF power injection method
• BS EN 1097-3:1998 Tests for mechanical and physical properties of aggregates - Determination of loose bulk density and voids
• BS PD 6609:2007 Environmental cleanliness in enclosed spaces. Guide to in situ high efficiency filter leak testing
• BS EN ISO 18754:2022 Fine ceramics (advanced ceramics, advanced technical ceramics) - Determination of density and apparent porosity

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, Palladium Power Density

• GB/T 24586-2009 Iron ores.Determination of apparent density，true density and porosity
• GB/T 11718.5-1989 Medium density fiberboard--Determination of moisture content
• GB/T 4511.1-2008 Coke.Determination of true relative density apparent relative density and porosity
• GB/T 11718.6-1989 Medium density fiberboard--Determination of thickness swelling rate of water absorption
• GB/T 6882-1986 Acoustics--Determination of sound power levels of noise sources--Precision methods for anechoic and semi-anechoic rooms
• GB/T 18822-2002 Small craft less than 8m length of hull--Determination of maximum propulsion power rating
• GB/T 19289-2003 Methods of measurement of density,resistivity and stacking factor of electrical steel sheet and strip
• GB/T 19890-2005 Acoustics-High intensity focused ultrasound(HIFU)measurements of acoustic power and field characteristics
• GB/T 1859.3-2015 Determination of sound power level by sound pressure method for reciprocating internal combustion engines - Part 3: Semi-anechoic chamber precision method
• GB/T 24240-2009 Direct reduced iron.Determination of apparent density and water absorption of hot briquetted iron(HBI)
• GB/T 3810.3-2016 Test method of ceramic tiles.Part 3:Determination of water absorption, apparent porosity,apparent relative density and bulk density
• GB/T 3810.3-1999 Test methods of ceramic tiles-- Part 3: Determination of water absorption, Apparent porosity,apparent relative density and bulk density
• GB/T 3810.3-2006 Test methods of ceramic tiles - Part 3: Determination of water absorption, apparent porosity, apparent relative density and bulk density

Standard Association of Australia （SAA）, Palladium Power Density

• AS/NZS IEC 62232:2023 Determination of RF field strength, power density and SAR in the vicinity of base stations for the purpose of evaluating human exposure
• AS ISO 10545.3:2020 Ceramic tiles, Method 3: Determination of water absorption, apparent porosity, apparent relative density and bulk density
• AS/NZS ISO 13694:2004 Optics and optical instruments - Lasers and laser-related equipment -Test methods for laser beam power (energy) density distribution
• AS 4459.3:1999 Methods of sampling and testing ceramic tiles - Determination of water absorption, apparent porosity, apparent relative density and bulk density
• AS/NZS 2891.14.5:1999 Methods of sampling and testing asphalt - Field density tests - Density ratio of compacted asphalt
• AS 1774.5:2001 Refractories and refractory materials - Physical test methods - The determination of density, porosity and water absorption
• AS 1141.5:1996 Methods for sampling and testing aggregates Method 5: Particle density and water absorption of fine aggregate

International Organization for Standardization (ISO), Palladium Power Density

• ISO/TR 10305:1992 Road vehicles; generation of standard EM fields for calibration of power density meters from 20 kHz to 1000 MHz
• ISO 1014:1985 Coke; Determination of true relative density, apparent relative density and porosity
• ISO 1014:1975 Coke — Determination of true relative density, apparent relative density and porosity
• ISO 1014:2021 Coke — Determination of true relative density, apparent relative density and porosity
• ISO 5017:1988 Dense shaped refractory products; determination of bulk density, apparent porosity and true porosity
• ISO 5017:1998 Dense shaped refractory products - Determination of bulk density, apparent porosity and true porosity
• ISO 5017:2013 Dense shaped refractory products - Determination of bulk density, apparent porosity and true porosity
• ISO 1014:1985/Cor 1:1994 Coke - Determination of true relative density, apparent relative density and porosity; Technical Corrigendum 1
• ISO 13694:2018 Optics and photonics — Lasers and laser-related equipment — Test methods for laser beam power (energy) density distribution
• ISO 3745:1977 Acoustics; Determination of sound power levels of noise sources; Precision methods for anechoic and semi-anechoic rooms
• ISO 9278:2008 Nuclear energy - Uranium dioxide pellets - Determination of density and volume fraction of open and closed porosity
• ISO 2738:1973 Permeable sintered metal materials — Determination of density and open porosity
• ISO 3742:1988 Acoustics; determination of sound power levels of noise sources; precision methods for discrete-frequency and narrow-band sources in reverberation rooms
• ISO 10545-3:1995 Ceramic tiles - Part 3: Determination of water absorption, apparent porosity, apparent relative density and bulk density
• ISO 10545-3:2018 Ceramic tiles - Part 3: Determination of water absorption, apparent porosity, apparent relative density and bulk density
• ISO 18549-1:2009 Metallic powders - Determination of apparent density and flow rate at elevated temperatures - Part 1: Determination of apparent density at elevated temperatures
• ISO 3741:1988 Acoustics; determination of sound power levels of noise sources; precision methods for broad-band sources in reverberation rooms
• ISO 9279:1992 Uranium dioxide pellets; determination of density and total porosity; mercury displacement method
• ISO 11592:2001 Small craft less than 8 m length of hull - Determination of maximum propulsion power rating
• ISO 15968:2016 Direct reduced iron - Determination of apparent density and water absorption of hot briquetted iron (HBI)
• ISO 6783:1982 Coarse aggregates for concrete; Determination of particle density and water absorption; Hydrostatic balance method
• ISO/DIS 15016:2014 Ships and marine technology — Specifications for the assessment of speed and power performance by analysis of speed trial data
• ISO 18549-2:2009 Metallic powders - Determination of apparent density and flow rate at elevated temperatures - Part 2: Determination of flow rate at elevated temperatures
• ISO 2649:1974 Wool; Determination of short-term irregularity of linear density of slivers, rovings and yarns, by means of an electronic evenness tester
• ISO 7033:1987 Fine and coarse aggregates for concrete; Determination of the particle mass-per-volume and water absorption; Pycnometer method

YU-JUS, Palladium Power Density

• JUS B.B8.032-1980 Testing of natural stone. Determination of bulk density, density, coefficient of density, and porosity
• JUS B.H8.351-1987 Methods of analysis of coal andcoke. Determination of the true relative density, the apparent relative densi-ty and the p orosity of coke
• JUS B.D8.312-1983 Refractories. Methods of fisical testing. Determination of the bulk deniity, apparent porosity and true porosity of dense shaped refractory products
• JUS N.S5.604-1985 Measurement of dielectric strength and rated outputpomr of short-vvava therapy squiprrmt
• JUS C.A2.041-1990 Perneable sintered metal materials. Determinaticm of densitj, oil content and open porosity
• JUS M.E6.083-1982 Radiators, convectors and similar appliances. Determination of thermal output. Test method using opati booth
• JUS M.E6.204-1991 Safety requirement for heat generating installations with flow temperatures up to 120°c ;closed water heating plants with thermostatic safety requirements with a static height of more than 15 m or heat output of more than 350 kw

Professional Standard - Electron, Palladium Power Density

• SJ 1721-1981 Measurement of frequency temperaturre coefficient of power klystrons

European Committee for Electrotechnical Standardization（CENELEC）, Palladium Power Density

• EN IEC 62232:2022 Determination of RF field strength, power density and SAR in the vicinity of base stations for the purpose of evaluating human exposure
• EN 62232:2017 Determination of RF field strength@ power density and SAR in the vicinity of radiocommunication base stations for the purpose of evaluating human exposure

International Electrotechnical Commission (IEC), Palladium Power Density

• IEC 62232:2022 Determination of RF field strength, power density and SAR in the vicinity of base stations for the purpose of evaluating human exposure
• IEC TR 63170:2018 Measurement procedure for the evaluation of power density related to human exposure to radio frequency fields from wireless communication devices operating between 6 GHz and 100 GHz
• IEC/IEEE 63195-1:2022 Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz) - Part 1: Measurement proced
• IEC/IEEE 63195-1-2022 Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz) - Part 1: Measurement proced
• IEC PAS 63446:2022 Conversion method of specific absorption rate to absorbed power density for the assessment of human exposure to radio frequency electromagnetic fields from wireless devices in close proximity to the h
• IEC/IEEE 63195-2-2022 Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz) - Part 2: Computational proc
• IEC/IEEE 63195-2:2022 Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz) - Part 2: Computational proc
• IEC TR 62669:2019 Case studies supporting IEC 62232 - Determination of RF field strength, power density and SAR in the vicinity of radiocommunication base stations for the purpose of evaluating human exposure

ZA-SANS, Palladium Power Density

• SANS 5906:1978 Bulk density, bulk volume, apparent porosity, and apparent relative density of dense refractory bricks (evacuation method)
• SANS 1014:1985 Coke - Determination of true relative density, apparent relative density and porosity
• SANS 9614-3:2005 Acoustics - Determination of sound power levels of noise sources using sound intensity Part 3: Precision method for measurement by scanning
• SANS 3741:1999 Acoustics - Determination of sound power levels of noise sources using sound pressure - Precision methods for reverberation rooms
• SANS 11592:2008 Small craft less than 8 m length of hull - Determination of maximum propulsion power rating

Defense Logistics Agency, Palladium Power Density

• DLA DSCC-DWG-93006 REV A-2003 CONNECTOR, HIGH DENSITY, BLADE AND FORK, DAUGHTER BOARD, EIGHT ROW, 296 CONTACT, 2 POWER POSITIONS
• DLA DSCC-DWG-93010 REV A-2003 CONNECTOR, HIGH DENSITY, BLADE AND FORK, DAUGHTER BOARD, EIGHT ROW, 284 CONTACT, 8 FIBER OPTIC AND SAFETY GROUND
• DLA DSCC-DWG-93011 REV A-2003 CONNECTOR, HIGH DENSITY, BLADE AND FORK, BACKPANEL, EIGHT ROW, 284 CONTACT, 8 FIBER OPTIC AND SAFETY GROUND
• DLA DSCC-DWG-93012 REV A-2003 CONNECTOR, HIGH DENSITY, BLADE AND FORK, DAUGHTER BOARD, EIGHT ROW, 280 CONTACT, 2 POWER POSITIONS
• DLA DSCC-DWG-93013 REV A-2003 CONNECTOR, HIGH DENSITY, BLADE AND FORK, BACKPANEL, EIGHT ROW, 280 CONTACT, 2 POWER POSITIONS, WITH SAFETY GROUND
• DLA SMD-5962-96658 REV C-2003 MICROCIRCUIT, DIGITAL, BIPOLAR, LOW-POWER SCHOTTKY TTL, HEX SCHMITT-TRIGGER INVERTERS, MONOLITHIC SILICON

Japanese Industrial Standards Committee (JISC), Palladium Power Density

• JIS Z 8736-1:1999 Acoustics -- Determination of sound power levels of noise sources using sound intensity -- Part 1: Measurement at discrete points
• JIS A 1109:1999 Methods of test for density and water absorption of fine aggregates
• JIS A 1109:2006 Methods of test for density and water absorption of fine aggregates
• JIS A 1110:1999 Methods of test for density and water absorption of coarse aggregates
• JIS A 1110:2006 Methods of test for density and water absorption of coarse aggregates
• JIS A 1104:1999 Methods of test for bulk density of aggregates and solid content in aggregates
• JIS A 1104:2006 Methods of test for bulk density of aggregates and solid content in aggregates
• JIS A 1104:2019 Methods of test for bulk density of aggregates and solid content in aggregates
• JIS R 1634:1998 Test methods for density and apparent porosity of fine ceramics
• JIS A 1509-3:2014 Test methods for ceramic tiles -- Part 3: Determination of water absorption, apparent porosity and bulk density
• JIS A 1509-3:2008 Test methods for ceramic tiles -- Part 3: Determination of water absorption, apparent porosity and bulk density
• JIS Z 2501:2000 Sintered metal materials -- Determination of density, oil content, and open porosity
• JIS F 1036:2003 Small craft less than 8 m length of hull -- Determination of maximum propulsion power rating
• JIS Z 8734:2021 Acoustics -- Determination of sound power levels and sound energy levels of noise sources using sound pressure -- Precision methods for reverberation test rooms
• JIS M 8716:1990 Iron ore pellets -- Determination of apparent density and porosity
• JIS A 1135:1999 Methods of test for particle density and water absorption of light weight coarse aggregates for structural concrete
• JIS A 1134:1999 Methods of test for particle density and water absorption of light weight fine aggregates for structural concrete
• JIS A 1134:2006 Methods of test for particle density and water absorption of lightweight fine aggregates for structural concrete
• JIS A 1135:2006 Methods of test for particle density and water absorption of lightweight coarse aggregates for structural concrete

Group Standards of the People's Republic of China, Palladium Power Density

• T/CISA 099-2021 Determination of apparent density,bulk density and porosity for iron tailings
• T/SDMTGM 0004-2018 Manufacturing digital complete sets of motor stator winding for high power density driven motor
• T/CEEIA 499-2021 Technical specifications for green-design product assessment— High power density high voltage three-phase cage asynchronous motor
• T/CECA 84-2023 MF72 type normal power negative temperature coefficient thermistor for surge current suppression

Association Francaise de Normalisation, Palladium Power Density

• NF EN IEC 62232:2022 Détermination de l'intensité de champ de radiofréquences, de la densité de puissance et du DAS à proximité des stations de base dans le but d'évaluer l'exposition humaine
• NF B10-615*NF EN 1936:2007 Natural stone test method - Determination of real density and apparent density, and of total and open porosity.
• NF P61-531-3*NF EN ISO 10545-3:2018 Ceramic tiles - Part 3 : determination of water absorption, apparent porosity, apparent relative density and bulk density
• NF EN ISO 10545-3:2018 Carreaux et dalles céramiques - Partie 3 : détermination de l'absorption d'eau, de la porosité ouverte, de la densité relative apparente et de la masse volumique globale
• NF ISO 5017:2013 Produits réfractaires façonnés denses - Détermination de la masse volumique apparente, de la porosité ouverte et de la porosité totale
• NF B40-318*NF ISO 5017:2013 Dense shaped refractory products - Determination of bulk density, apparent porosity and true porosity
• NF EN 62232:2017 Détermination de l'intensité de champs de radiofréquences, de la densité de puissance et du DAS à proximité des stations de base de radiocommunications dans le but d'évaluer l'exposition humaine
• NF B10-503:1973 QUARRY PRODUCTS. LIMESTONES. MEASUREMENT OF POROSITY, OF THE TRUE WEIGHT PER UNIT VOLUME, AND OF THE APPARENT WEIGHT PER UNIT VOLUME.
• NF EN ISO 9614-3:2009 Acoustique - Détermination par intensimétrie des niveaux de puissance acoustique émis par les sources de bruit - Partie 3 : méthode de précision pour mesurage par balayage
• NF C99-232*NF EN 62232:2017 Determination of RF field strength, power density and SAR in the vicinity of radiocommunication base stations for the purpose of evaluating human exposure
• NF EN ISO 18754:2022 Céramiques techniques - Détermination de la masse volumique et de la porosité apparente
• NF S10-124*NF EN ISO 13694:2018 Optics and photonics - Lasers and laser-related equipment - Test methods for laser beam power (energy) density distribution
• NF ISO 11527:2019 Bâtiments et ouvrages de génie civil - Mastics - Méthode d'essai pour la détermination du pouvoir filant
• NF S31-123:1986 Acoustics. Noise emitted by refrigeration equipments with hermetic and accessible hermetic compressors. Test code for measuring the sound power.
• NF EN 993-1:2018 Méthodes d'essai pour produits réfractaires façonnés denses - Partie 1 : détermination de la masse volumique apparente, de la porosité ouverte et de la porosité totale
• NF B40-321*NF EN 993-1:2018 Methods of test for dense shaped refractory products - Part 1 : determination of bulk density, apparent porosity and true porosity
• NF EN IEC/IEEE 63195-2:2023 Évaluation de la densité de puissance de l'exposition humaine aux champs radiofréquences provenant de dispositifs sans fil à proximité immédiate de la tête et du corps (plage de fréquences de 6 GHz à 300 GHz) - Partie 2 : procédure de calcul
• NF EN IEC/IEEE 63195-1:2023 Évaluation de la densité de puissance de l'exposition humaine aux champs radiofréquences provenant de dispositifs sans fil à proximité immédiate de la tête et du corps (plage de fréquences de 6 GHz à 300 GHz) - Partie 1 : procédure de mesure
• NF EN ISO 13694:2018 Optique et photonique - Lasers et équipements associés aux lasers - Méthodes d'essai de distribution de la densité de puissance (d'énergie) du faisceau laser
• NF B40-321:1995 Methods of test for dense shaped refractory products. Part 1 : determination of bulk density, apparent porosity and true porosity.
• NF EN 15035:2007 Chaudières de chauffage central - Exigences spécifiques aux chaudières au fioul étanches de puissance inférieure ou égale à 70 kW
• NF M08-016:2005 Petroleum and liquid petroleum products - Determination of density for metrological purposes - Oscillation frequency method.
• NF M60-458*NF ISO 9278:2009 Nuclear energy - Uranium dioxide pellets - Determination of density and volume fraction of open and closed porosity.
• NF M08-016:2014 Petroleum and liquid petroleum products - Determination of density for metrological purposes - Oscillation frequency method
• NF M08-016:1992 Petroleum and liquid petroleum products. Determination of density for metrological purposes. Oscillation frequence method.
• NF A95-311:1977 POWDER METALLURGY. PERMEABLE SINTERED METAL MATERIALS. DETERMINATION OF DENSITY AND OPEN POROSITY.
• NF B10-602-1:2005 Agglomerated stone - Test methods - Part 1 : determination of apparent density and water absorption.
• NF B10-602-1*NF EN 14617-1:2013 Agglomerated stone - Test methods - Part 1: determination of apparent density and water absorption
• NF B40-344*NF EN 1094-4:1995 Insulating refractory products. Part 4 : determination of bulk density and true porosity.
• NF EN ISO 9614-1:2009 Acoustique - Détermination par intensimétrie des niveaux de puissance acoustique émis par les sources de bruit - Partie 1 : mesurages par points

Danish Standards Foundation, Palladium Power Density

• DS/EN ISO 10545-3:1998 Ceramic tiles - Part 3: Determination of water absorption, apparent porosity, apparent relative density and bulk density
• DS/EN 1936:2007 Natural stone test methods - Determination of real density and apparent density, and of total and open porosity
• DS/EN ISO 13694:2000 Optics and optical instruments - Lasers and laser-related equipment - Test methods for laser beam power (energy) density distribution
• DS/EN 23 741:1993 Acoustics - Determination of sound power levels of noise sources - Precision methods for broad-band sources in reverberation rooms
• DS 406.2:1987 Lightweight aggregates for concrete. Determination of grain density and water absorption
• DS/EN 772-4:1999 Methods of test for masonry units - Part 4: Determination of real and bulk density and of total and open porosity for natural stone masonry units
• DS/EN 993-1:1995 Methods of test for dense shaped refractory products - Part 1: Determination of bulk density, apparent porosity and true porosity
• DS/ISO 3742:1991 Acoustics. Determination of sound power levels of noise sources. Precision methods for discrete-frequency and narrow-band sources in reverberation rooms
• DS/ISO 3741:1991 Acoustics. Determination of sound power levels of noise sources. Precision methods for broad-band sources in reverberation rooms
• DS/EN ISO 9614-3:2009 Acoustics - Determination of sound power levels of noise sources using sound intensity - Part 3: Precision method for measurement by scanning
• DS/EN ISO 11592:2001 Small craft less than 8 m length of hull - Determination of maximum propulsion power rating
• DS/EN ISO 3741:2011 Acoustics - Determination of sound power levels and sound energy levels of noise sources using sound pressure - Precision methods for reverberation test rooms
• DS/EN 1094-4:1996 Insulating refractory products - Part 4: Determination of bulk density and true porosity
• DS/EN 14617-1:2013 Agglomerated stone - Test methods - Part 1: Determination of apparent density and water absorption
• DS/ISO 12030:2010 Tobacco and tobacco products - Non-destructive determination of strips density variation ratio in case - Ionizing radiation method

German Institute for Standardization, Palladium Power Density

• DIN EN ISO 10545-3:2018-06 Ceramic tiles - Part 3: Determination of water absorption, apparent porosity, apparent relative density and bulk density (ISO 10545-3:2018); German version EN ISO 10545-3:2018
• DIN EN 1936:2007-02 Natural stone test method - Determination of real density and apparent density, and of total and open porosity; German version EN 1936:2006
• DIN EN ISO 10545-3:2018 Ceramic tiles - Part 3: Determination of water absorption, apparent porosity, apparent relative density and bulk density (ISO 10545-3:2018)
• DIN 52102:2006 Test methods for aggregates - Determination of dry bulk density by the cylinder method and calcualtion of the ratio of density
• DIN 52102:2013 Test methods for aggregates - Determination of dry bulk density by the cylinder method and calculation of the ratio of density
• DIN EN ISO 13694:2019-06 Optics and photonics - Lasers and laser-related equipment - Test methods for laser beam power (energy) density distribution (ISO 13694:2018); German version EN ISO 13694:2018
• DIN EN 772-4:1998 Methods of test for masonry units - Part 4: Determination of real and bulk density and of total and open porosity for natural stone masonry units; German version EN 772-4:1998
• DIN 51918:2018-07 Testing of carbonaceous materials - Determination of bulk density and the open porosity
• DIN EN 772-4:1998-10 Methods of test for masonry units - Part 4: Determination of real and bulk density and of total and open porosity for natural stone masonry units; German version EN 772-4:1998
• DIN 51918:2012 Testing of carbonaceous materials - Determination of bulk density and the open porosity
• DIN 51918:2018 Testing of carbonaceous materials - Determination of bulk density and the open porosity
• DIN EN 993-1:2019 Methods of test for dense shaped refractory products - Part 1: Determination of bulk density, apparent porosity and true porosity
• DIN EN ISO 13694:2019 Optics and photonics - Lasers and laser-related equipment - Test methods for laser beam power (energy) density distribution (ISO 13694:2018)
• DIN EN ISO 10545-3:1997 Ceramic tiles - Part 3: Determination of water absorption, apparent porosity, apparent relative density and bulk density (ISO 10545-3:1995, including Technical Corrigendum 1:1997); German version EN ISO 10545-3:1997
• DIN EN ISO 9614-3:2009-11 Acoustics - Determination of sound power levels of noise sources using sound intensity - Part 3: Precision method for measurement by scanning (ISO 9614-3:2002); German version EN ISO 9614-3:2009
• DIN 25495:1991 Determination of density and total porosity of uranium dioxide pellets by the mercury displacement method
• DIN EN 993-1:2019-03 Methods of test for dense shaped refractory products - Part 1: Determination of bulk density, apparent porosity and true porosity; German version EN 993-1:2018
• DIN EN 14617-1:2013-08 Agglomerated stone - Test methods - Part 1: Determination of apparent density and water absorption; German version EN 14617-1:2013
• DIN 25494:1991-04 Determination of density and open and closed porosity of uranium dioxide pellets; boiling water and immersion method
• DIN 25494:1991 Determination of density and open and closed porosity of uranium dioxide pellets; boiling water and immersion method

KR-KS, Palladium Power Density

• KS E ISO 1014-2022 Coke — Determination of true relative density, apparent relative density and porosity
• KS I ISO 3741-2016 Acoustics－Determination of sound power levels of noise sources using sound pressure－Precision methods for reverberation rooms
• KS E ISO 15968-2017 Direct reduced iron－Determination of apparent density and water absorption of hot briquetted iron(HBI)
• KS I ISO 3745-2016 Acoustics－Determination of sound power levels and sound energy levels of noise sources using sound pressure－Precision methods for anechoic rooms and hemi-anechoic rooms

ASHRAE - American Society of Heating@ Refrigerating and Air-Conditioning Engineers@ Inc., Palladium Power Density

• ASHRAE LO-09-070-2009 Functional Exergy Efficiency at Near-Environmental Temperatures
• ASHRAE 4023-1997 Parametric Study of a Silica Gel-Water Adsorption Refrigeration Cycle - the Influence of Thermal Capacitance and Heat Exchanger UA-Values on Cooling Capacity@ Power Density@ and COP

Lithuanian Standards Office , Palladium Power Density

• LST EN 1936-2007 Natural stone test methods - Determination of real density and apparent density, and of total and open porosity
• LST 1361.7-1995 Mineral aggregates for road construction. Testing methods. Determination of absolute density, dry bulk density, compactness and porosity
• LST EN 772-4-2000 Methods of test for masonry units - Part 4: Determination of real and bulk density and of total and open porosity for natural stone masonry units
• LST EN 993-1-2001 Methods of test for dense shaped refractory products - Part 1: Determination of bulk density, apparent porosity and true porosity
• LST EN ISO 10545-3:1997 Ceramic tiles - Part 3: Determination of water absorption, apparent porosity, apparent relative density and bulk density (ISO 10545-3:1995, including Technical Corrigendum 1:1997)
• LST EN ISO 13694:2000 Optics and optical instruments - Lasers and laser-related equipment - Test methods for laser beam power (energy) density distribution (ISO 13694:2000)
• LST EN ISO 13694:2000/AC:2008 Optics and optical instruments - Lasers and laser-related equipment - Test methods for laser beam power (energy) density distribution (ISO 13694:2000/Cor 1:2005)
• LST EN 1094-4-2001 Insulating refractory products - Part 4: Determination of bulk density and true porosity
• LST EN 14617-1-2005 Agglomerated stone - Test methods - Part 1: Determination of apparent density and water absorption
• LST EN ISO 3741:2011 Acoustics - Determination of sound power levels and sound energy levels of noise sources using sound pressure - Precision methods for reverberation test rooms (ISO 3741:2010)
• LST EN ISO 9614-3:2010 Acoustics - Determination of sound power levels of noise sources using sound intensity - Part 3: Precision method for measurement by scanning (ISO 9614-3:2002)

AENOR, Palladium Power Density

• UNE-EN 1936:2007 Natural stone test methods - Determination of real density and apparent density, and of total and open porosity
• UNE-EN 993-1:1996 METHODS OF TEST FOR DENSE SHAPED REFRACTORY PRODUCTS. PART 1: DETERMINATION OF BULK DENSITY, APPARENT POROSITY AND TRUE POSORITY.
• UNE-EN ISO 10545-3:1997 CERAMIC TILES. PART 3: DETERMINATION OF WATER ABSORPTION, APPARENT POROSITY, APPARENT RELATIVE DENSITY AND BULK DENSITY. (ISO 10545-3:1995), INCLUDING TECHNICAL CORRIGENDUM 1:1997).
• UNE 83980:2014 Concrete durability. Test methods. Determination of the water absorption, density and accessible porosity for water in concrete.
• UNE-EN 1094-4:1996 Insulating refractory products - Part 4: Determination of bulk density and true porosity
• UNE-EN 14617-1:2013 Agglomerated stone - Test methods - Part 1: Determination of apparent density and water absorption

未注明发布机构, Palladium Power Density

• BS EN 1936:2006(2007) Natural stone test methods — Determination of real density and apparent density, and of total and open porosity
• BS EN 62232:2017 Determination of RF field strength, power density and SAR in the vicinity of radiocommunication base stations for the purpose of evaluating human exposure
• BS IEC/IEEE 63195-1:2022 Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz) Part 1 : Measurement procedure
• BS EN 1094-4:1995(1999) Insulating refractory products — Part 4 : Determination of bulk density and true porosity
• BS ISO 18754:2020 Fine ceramics (advanced ceramics, advanced technical ceramics) — Determination ofdensity and apparent porosity

American Society for Testing and Materials (ASTM), Palladium Power Density

• ASTM F1811-97 Standard Practice for Estimating the Power Spectral Density Function and Related Finish Parameters from Surface Profile Data
• ASTM C127-04 Standard Test Method for Density, Relative Density (Specific Gravity), and Absorption of Coarse Aggregate
• ASTM F1815-11 Standard Test Methods for Saturated Hydraulic Conductivity, Water Retention, Porosity, and Bulk Density of Athletic Field Rootzones
• ASTM C948-81(2023) Standard Test Method for Dry and Wet Bulk Density, Water Absorption, and Apparent Porosity of Thin Sections of Glass-Fiber Reinforced Concrete
• ASTM C642-21 Standard Test Method for Density, Absorption, and Voids in Hardened Concrete
• ASTM F1815-11(2018) Standard Test Methods for Saturated Hydraulic Conductivity, Water Retention, Porosity, and Bulk Density of Athletic Field Rootzones
• ASTM D558-04 Standard Test Methods for Moisture-Density (Unit Weight) Relations of Soil-Cement Mixtures
• ASTM C1688/C1688M-14 Standard Test Method for Density and Void Content of Freshly Mixed Pervious Concrete
• ASTM C29/C29M-07 Standard Test Method for Bulk Density ("Unit Weight") and Voids in Aggregate
• ASTM D2980-17e1 Standard Test Method for Saturated Density, Moisture-Holding Capacity, and Porosity of Saturated Peat Materials
• ASTM C1039-85(2005) Standard Test Methods for Apparent Porosity, Apparent Specific Gravity, and Bulk Density of Graphite Electrodes
• ASTM B311-93(2002)e1 Test Method for Density Determination for Powder Metallurgy (P/M) Materials Containing Less Than Two Percent Porosity
• ASTM B311-22 Standard Test Method for Density of Powder Metallurgy (PM) Materials Containing Less Than Two Percent Porosity
• ASTM C373-88(1999) Standard Test Method for Water Absorption, Bulk Density, Apparent Porosity, and Apparent Specific Gravity of Fired Whiteware Products
• ASTM C948-81(2001) Standard Test Method for Dry and Wet Bulk Density, Water Absorption, and Apparent Porosity of Thin Sections of Glass-Fiber Reinforced Concrete
• ASTM C1039-85(2000) Standard Test Methods for Apparent Porosity, Apparent Specific Gravity, and Bulk Density of Graphite Electrodes
• ASTM B311-93(1997) Test Method for Density Determination for Powder Metallurgy (P/M) Materials Containing Less Than Two Percent Porosity
• ASTM D6938-10 Standard Test Method for In-Place Density and Water Content of Soil and Soil-Aggregate by Nuclear Methods (Shallow Depth)
• ASTM F1815-06 Standard Test Methods for Saturated Hydraulic Conductivity, Water Retention, Porosity, and Bulk Density of Putting Green and Sports Turf Root Zones
• ASTM C1039-85(2015) Standard Test Methods for Apparent Porosity, Apparent Specific Gravity, and Bulk Density of Graphite Electrodes
• ASTM C1039-85(2010)e1 Standard Test Methods for Apparent Porosity, Apparent Specific Gravity, and Bulk Density of Graphite Electrodes
• ASTM C1039-85(2020)e1 Standard Test Methods for Apparent Porosity, Apparent Specific Gravity, and Bulk Density of Graphite Electrodes
• ASTM C20-00(2022) Standard Test Methods for Apparent Porosity, Water Absorption, Apparent Specific Gravity, and Bulk Density of Burned Refractory Brick and Shapes by Boiling Water

European Committee for Standardization (CEN), Palladium Power Density

• EN 772-4:1998 Methods of test for masonry units - Part 4: Determination of real and bulk density and of total and open porosity for natural stone masonry units
• EN 1936:2006 Natural stone test methods - Determination of real density and apparent density, and of total and open porosity
• EN ISO 13694:2015 Optics and photonics - Lasers and laser-related equipment - Test methods for laser beam power (energy) density distribution
• EN 23742:1991 Acoustics; determination of sound power levels of noise sources; precision method for discrete-frequency and narrow-band sources in reverberation rooms (identical with ISO 3742:1988)
• EN ISO 10545-3:2018 Ceramic tiles - Part 3: Determination of water absorption, apparent porosity, apparent relative density and bulk density (ISO 10545-3:2018)
• EN 23741:1991 Acoustics; determination of sound power levels of noise sources; precision methods for broad-band sources in reverberation rooms (identical with ISO 3741:1988)
• EN ISO 9614-3:2009 Acoustics - Determination of sound power levels of noise sources using sound intensity - Part 3: Precision method for measurement by scanning (ISO 9614-3:2002)
• EN 14617-1:2013 Agglomerated stone - Test methods - Part 1: Determination of apparent density and water absorption

National Aeronautics and Space Administration (NASA), Palladium Power Density

• NASA NACA-TN-3143-1954 Experimental determination of thermal conductivity of low-density ice
• NASA-TM-213049-2004 Leakage and Power Loss Test Results for Competing Turbine Engine Seals
• NASA NACA-TN-1637-1948 Effect of preignition on cylinder temperatures, pressures, power output, and piston failures

TR-TSE, Palladium Power Density

• TS 854-1970 EXPRESSION OF THE POVVEft AND INTENSITY LEVELS OF SOUND OR NOISE
• TS 2709-1977 ACOUSTICS - DETERMINATION OF SOUND POWER LEVELS OF NOISE SOURCES — PRECISION METHODS FOR DISCRETE — FREQUENCY AND NARROW - BAND SOURCES IN REVERBERATION ROOMS
• TS 2244-1976 IRON ORE PELLETS METHODS FOR MEASURING THE APPARENT DENSITY AND POROSITY
• TS 2394-1976 WOOL - DETERM?NATION OF SHORT - TERM IRREGULARITY OF LINEAR DENSITY OF SLIVERS, ROVINGS AND YARNS, BY BEANS OF AN ELECTRONIC EVENNESS TESTER

GM Europe, Palladium Power Density

• GME 16644-2011 Torque Accuracy Check on Dynamic Power Analyzer
• GME16644-2011 脺berpr眉fung der Drehmomentgenauigkeit am Rollenpr眉fstand Torque Accuracy Check on Dynamic Power Analyzer Revision 1; English/German; Includes Appendix A

CEN - European Committee for Standardization, Palladium Power Density

• EN ISO 13694:2018 Optics and photonics - Lasers and laser-related equipment - Test methods for laser beam power (energy) density distribution
• EN ISO 9614-3:2002 Acoustics - Determination of sound power levels of noise sources using sound intensity - Part 3: Precision method for measurement by scanning
• EN ISO 11592:2001 Small Craft Less Than 8 m Length of Hull - Determination of Maximum Propulsion Power Rating
• EN 14617-1:2005 Agglomerated stone - Test methods - Part 1: Determination of apparent density and water absorption

Indonesia Standards, Palladium Power Density

• SNI ISO 5017:2010 Dense shaped refractory products - determination of bulk density, apparent porosity, and true porosity
• SNI IEC 60051-3:2009 Direct acting indicating analogue electrical measuring instruments and their accessories. Part 3: Special requirements for wattmeters and varmeters
• SNI ISO 5016:2010 Shaped insulating refractory products - Determination of bulk density and true porosity

CZ-CSN, Palladium Power Density

• CSN 72 5010-1988 Determination of water absorptivity, apparent and true porosity, bulk density and apparent density solid density of fired ceramic materials and products
• CSN 44 1326-1983 Hard - coal coke. Determination of density and porosity
• CSN 01 1607-1983 Xoise. Precision method for the deter-mination of tho sound power lovel of noise emitted by machinos in tho rever-boration room
• CSN 01 1608-1982 NOISE. Precizion method for the determination of the sound power level of noise emitted by machines in anechoic laboratory
• CSN 72 5010 Za-1978
• CSN EN 23 742-1994 Acoustics. Determination of sound power levels of noise sources. Precision methods for discrete-frequency and narrow-band sources in reverberation rooms

ITU-T - International Telecommunication Union/ITU Telcommunication Sector, Palladium Power Density

• ITU-T G.9700 AMD 2-2017 Fast access to subscriber terminals (G.fast) – Power spectral density specification Amendment 2 (Study Group 15)
• ITU-T G.9700 AMD 1-2016 Fast access to subscriber terminals (G.fast) - Power spectral density specification Amendment 1 (Study Group 15)
• ITU-T G.9901-2012 Narrowband orthogonal frequency division multiplexing power line communication transceivers – Power spectral density specification (Study Group 15)
• ITU-T G.9901-2017 Narrowband orthogonal frequency division multiplexing power line communication transceivers - Power spectral density specification (Study Group 15)
• ITU-T G.9964 AMD 2-2016 Unified high-speed wireline-based home networking transceivers – Power spectral density specification Amendment 2 (Study Group 15)
• ITU-T K.81-2009 High-power electromagnetic immunity guide for telecommunication systems (Study Group 5)
• ITU-T K.81-2016 High-power electromagnetic immunity guide for telecommunication systems (Study Group 5)
• ITU-T K.54-2000 Conducted Immunity Test Method and Level at Fundamental Power Frequencies Series K: Protection Against Interference (Study Group 5)

Hunan Provincial Standard of the People's Republic of China, Palladium Power Density

• DB43/T 1772-2020 Guaranteed energy efficiency values and inspection specifications for ultra-high-efficiency, high-power-density three-phase asynchronous motors

U.S. Military Regulations and Norms, Palladium Power Density

• ARMY MIL-PRF-39019 E SUPP 1-2008 CIRCUIT BREAKERS, MAGNETIC, LOW POWER, SEALED, TRIP-FREE GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-39019/2 H-2010 CIRCUIT BREAKERS, MAGNETIC, LOW-POWER, SEALED, TRIP-FREE ONE-POLE, AUXILIARY CONTACTS
• ARMY MIL-PRF-39019/4 H-2010 CIRCUIT BREAKERS, MAGNETIC, LOW-POWER, SEALED, TRIP-FREE TWO-POLE, AUXILLIARY CONTACTS
• ARMY MIL-PRF-39019/6 H-2010 CIRCUIT BREAKERS, MAGNETIC, LOW-POWER, SEALED, TRIP-FREE THREE-POLE, AUXILIARY CONTACTS
• ARMY QPL-39019-26 NOTICE 1-2008 Circuit Breakers, Magnetic, Low Power, Sealed, Trip Free, General Specification for
• ARMY MIL-PRF-55629/10 E-2010 CIRCUIT BREAKERS, MAGNETIC, LOW-POWER, UNSEALED, TRIP-FREE, SERIES TRIP, DOUBLE POLE, AUXILIARY CONTACTS (0.2 TO 30 AMPERES)
• ARMY MIL-PRF-55629/8 F-2010 CIRCUIT BREAKERS, MAGNETIC, LOW-POWER, UNSEALED, TRIP-FREE, SERIES TRIP, SINGLE POLE, AUXILIARY CONTACTS (0.2 TO 30 AMPERES)

American National Standards Institute （ANSI), Palladium Power Density

• ANSI/ASTM F1815:2011 Test Methods for Saturated Hydraulic Conductivity, Water Retention, Porosity, and Bulk Density of Athletic Field Rootzones
• ANSI S12.51-2002 Acoustics - Determination of sound power levels of noise sources using sound pressure - Precision methods for reverberation rooms
• BS EN IEC/IEEE 63195-1:2023 Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz) Measurement procedure (British Standard)
• BS EN IEC/IEEE 63195-2:2023 Assessment of power density of human exposure to radio frequency fields from wireless devices in close proximity to the head and body (frequency range of 6 GHz to 300 GHz) Computational procedure (British Standard)
• ANSI/ASA S12.12-1992 Engineering Method for the Determination of Sound Power Levels of Noise Sources Using Sound Intensity
• ANSI S12.12-1992 Engineering method for the determination of sound power levels of noise sources using sound intensity
• ANSI/ASTM C1039:2000 Test Methods for Apparent Porosity, Apparent Specific Gravity, and Bulk Density of Graphite Electrodes
• ANSI/ISO 3741:2010 Acoustics - Determination of sound power levels and sound energy levels of noise sources using sound pressure - Precision methods for reverberation test rooms

NL-NEN, Palladium Power Density

• NEN 2620-1982 Dense shaped refractory products — Determination of bulk density, apparent porosity and true porosity
• NEN 6158-1972 Determination of the pi Ie density and the pile filling ratio of carpets

Professional Standard - Commodity Inspection, Palladium Power Density

• SN/T 0482-1995 High-speed determination of true relative density,apparentrelative density and porosity of coke for export

Illuminating Engineering Society of North America, Palladium Power Density

• IESNA LM-85-2014 Approved Method for Electrical and Photometric Measurements of High-Power LEDs

Professional Standard - Railway, Palladium Power Density

• TB/T 2536-1995 Test method for constant power speed range of diesel locomotive

BE-NBN, Palladium Power Density

• NBN-EN 60051-3-1994 Direct acting indicating analogue electrical measuring instruments and their accessories Part 3: Special requirements for wattmeters and varmeters
• NBN-ISO 3745:1992 Acoustics. Determination of sound power levels of noise sources. Precision methods for anechoic and semi-anechoic rooms

SE-SIS, Palladium Power Density

• SIS SS-ISO 3742:1989 Acoustics — Determination ofsoundpower levels ofnoise sources — Precision methods for discrete-frequency and narrow-band sources in reverberation rooms
• SIS SS-ISO 3741:1989 Acoustics — Determination of sound power levels ofnoise sources — Precision methods for broad-band sources in reverberation rooms

IEEE - The Institute of Electrical and Electronics Engineers@ Inc., Palladium Power Density

• IEEE P63195/CD-2018 MEASUREMENT PROCEDURE FOR THE ASSESSMENT OF POWER DENSITY OF HUMAN EXPOSURE TO RADIO FREQUENCY FIELDS FROM WIRELESS DEVICES OPERATING IN CLOSE PROXIMITY TO THE HEAD AND BODY (Frequency range of 6 GHz to 300 GHz)
• IEC/IEEE CD 62704-5:2018 COMPUTATIONAL PROCEDURE FOR THE ASSESSMENT OF POWER DENSITY OF HUMAN EXPOSURE TO RADIO FREQUENCY FIELDS FROM WIRELESS DEVICES OPERATING IN CLOSE PROXIMITY TO THE HEAD AND BODY (Frequency range of 6 GHz to 300 GHz)

RO-ASRO, Palladium Power Density

• STAS 9678-1974 Physical acoustics EXPRESION OF THE ACOUSTIC POWER AND INTENSITY LEVELS OF SOUND OR NOISE

FI-SFS, Palladium Power Density

• SFS 3332-1976

Professional Standard - Medicine, Palladium Power Density

• YY/T 0756-2009 Optics and Optical Instruments Lasers and Laser-related Equipment Laser Beam Power (Test Method for Energy Density Distribution

工业和信息化部/国家能源局, Palladium Power Density

• JB/T 13074.2-2017 CNC machine tool electrical equipment and system spindle motor performance test specifications Part 2: Power density

AT-ON, Palladium Power Density

• ONORM S 5026-1996 Measurement of noise emitted by railbound vehicles - Sound power level per unit length
• ONORM EN 23742-1992 Acoustics - Determination of sound power levels of noise sources - Precision methods for discrete-frequency and narrow-band sources in reverberation rooms
• ONORM EN 23741-1992 Acoustics - Determination of sound power levels of noise sources - Precision methods for broad-band sources in reverberation rooms

ES-AENOR, Palladium Power Density

• UNE 21-136 Pt.12-1990

AT-OVE/ON, Palladium Power Density

• OVE EN IEC 62232:2021 Determination of RF field strength, power density and SAR in the vicinity of radiocommunication base stations for the purpose of evaluating human exposure (IEC 106/550/CDV) (english version)

工业和信息化部, Palladium Power Density

• YD/T 3812-2020 Calculation method for off-axis equivalent isotropic radiated power density limits for geostationary satellite network earth stations in the fixed-satellite service

VN-TCVN, Palladium Power Density

• TCVN 6530-3-1999 Refractories.Methods of test.Part 3: Determination of bulk density, water absorption, apparent porosity and true porosity

IT-UNI, Palladium Power Density

• UNI 8475-P2-1983

PL-PKN, Palladium Power Density

• PN H04172-1993 Refractory materials. Determination of bulk density and true porosity of insulating products

国家市场监督管理总局、中国国家标准化管理委员会, Palladium Power Density

• GB/T 19289-2019 Methods of measurement of resistivity，density and stacking factor of electrical steel strip and sheet

Acoustical Society of America (ASA), Palladium Power Density

• ASA S12.35-1990 Precision Methods for the Determination of Sound Power Levels of Noise Sources in Anechoic and Hemi-Anechoic Rooms ASA 90 R(2001)

NO-SN, Palladium Power Density

• NS 4821-1982 Acoustics - Determination of sound power levels of noise sources - Precision methods for anechoic and semi-anechoic rooms ( ISO 3745:1977)

American Society of Civil Engineers (ASCE), Palladium Power Density

• ASCE 50-08/51-08-2008 Standard Guideline for Fitting Saturated Hydraulic Conductivity Using Probability Density Functions; Standard Guideline for Calculating the Effective Saturated Hydraulic Conductivity

Professional Standard - Energy, Palladium Power Density

• NB/T 20037.10-2017 Level I probabilistic safety assessment for nuclear power plant application.Part 10: seismic margin assessment at power
• NB/T 20037.10-2017RK Level 1 Probabilistic Safety Assessment Applied to Nuclear Power Plants Part 10: Seismic Margin Evaluation for Power Operation

GOSTR, Palladium Power Density

• GOST R 58402.1-2019 Automobile roads of general use. Мineral materials for preparing asphalt mixtures. Volumetric-functional design system. Methods for determination of density and absorption of fine aggregate
• GOST R 58402.6-2019 Automobile roads of general use. Mineral materials for preparing asphalt mixtures. Volumetric-functional design system. Method for determination of density and absorption of coarse aggregate

中华人民共和国国家质量监督检验检疫总局、中国国家标准化管理委员会, Palladium Power Density

• GB/T 35160.1-2017 Test methods for agglomerated stone—Part 1：Determination of apparent density and water absorption

TH-TISI, Palladium Power Density

• TIS 1743-1999 Coarse aggregates for concrete.determination of particle density and water absorption.hydrostatic balance method

AASHTO - American Association of State Highway and Transportation Officials, Palladium Power Density

• T 19M/T 19-2000 Standard Method of Test for Bulk Density ( Unit Weight ) and Voids in Aggregate

Guangdong Provincial Standard of the People's Republic of China, Palladium Power Density

• DB44/T 1100.1-2012 Test methods for artificial stone: Part 1 Determination of bulk density and water absorption

CU-NC, Palladium Power Density

• NC 90-17-01-1985 Metrological Assurance. Photometry Relative Spectral Luminous E fficiency. Colorimetric Functions Trichromatic Coordinates

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