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microcavity effect
microcavity effect, Total:90 items.
In the international standard classification, microcavity effect involves: Semiconductor devices, Integrated circuits. Microelectronics, Rubber, Analytical chemistry, Soil quality. Pedology, Valves, Optics and optical measurements, Company organization and management, Plastics, Paints and varnishes.
ASHRAE - American Society of Heating@ Refrigerating and Air-Conditioning Engineers@ Inc., microcavity effect
- ASHRAE CI-01-5-1-2001 Natural Convection Effects in Three-Dimensional Window Frames with Internal Cavities
- ASHRAE SA-96-2-4-1996 Principles of Refrigerant Circuiting with Application to Microchannel Condensers: Part II - The Pressure-Drop Effect and the Cross-Flow Heat Exchanger Effect
- ASHRAE 4471-2001 An Assessment of Refrigerant Heat Transfer@ Pressure Drop@ and Void Fraction Effects in Microfin Tubes (International Journal of HAVC&R Research)
IET - Institution of Engineering and Technology, microcavity effect
Professional Standard - Aerospace, microcavity effect
- QJ 2617-1994 Acceptance specification for microwave field effect transistor (microwave FET) package
Military Standard of the People's Republic of China-General Armament Department, microcavity effect
- GJB 9257-2017 High power microwave effect test method Narrowband high power microwave irradiation method
- GJB 9896-2020 High-power microwave effect test method Ultra-broadband high-power microwave irradiation method
- GJB 33/24-2021 Detailed Specification for CS0406-10 Silicon Field Effect Microwave Pulse Power Transistor
- GJB 33/25-2021 Detailed Specification for CS0406-350 Silicon Field Effect Microwave Pulse Power Transistor
- GJB 8385-2015 Test specifications of injection method for narrow-band HPM effects on military electronic systems
AGMA - American Gear Manufacturers Association, microcavity effect
- 07FTM14-2007 Roughness and Lubricant Chemistry Effects in Micropitting
Defense Logistics Agency, microcavity effect
- DLA SMD-5962-89659-1990 MICROCIRCUIT, LINEAR, FET BUFFER, HYBRID
- DLA SMD-5962-01512-2001 MICROCIRCUIT, LINEAR, DUAL, HIGH SPEED, FET DRIVER, MONOLITHIC SILICON
- DLA SMD-5962-01520 REV B-2003 MICROCIRCUIT, LINEAR, HIGH CURRENT FET DRIVER, MONOLITHIC SILICON
- DLA SMD-5962-90807 REV D-2002 MICROCIRCUIT, LINEAR, JFET, MICROPOWER, OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
- DLA SMD-5962-90808 REV C-2002 MICROCIRCUIT, LINEAR, JFET, MICROPOWER, DUAL, OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
- DLA SMD-5962-01504 REV B-2007 MICROCIRCUIT, HYBRID, CUSTOM, FIELD EFFECT TRANSISTOR, 500 VOLT, WITH GATE PROTECTION
- DLA SMD-5962-01504 REV D-2011 MICROCIRCUIT, HYBRID, CUSTOM, FIELD EFFECT TRANSISTOR, 500 VOLT, WITH GATE PROTECTION
- DLA SMD-5962-90809 REV E-2006 MICROCIRCUIT, LINEAR, JFET, MICROPOWER, QUAD, OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
- DLA SMD-5962-01503 REV A-2005 MICROCIRCUIT, HYBRID, CUSTOM, FIELD EFFECT TRANSISTORS, 600 VOLT OR 500 VOLT, WITH GATE PROTECTION
- DLA SMD-5962-97637 REV A-2003 MICROCIRCUIT, LINEAR, FAST JFET OPERATIONAL AMPLIFIER MONOLITHIC SILICON
- DLA SMD-5962-98515 REV C-2006 MICROCIRCUIT, LINEAR, DUAL JFET-INPUT OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
- DLA SMD-5962-81023 REV L-2006 MICROCIRCUIT, LINEAR, BI-FET OPERATIONAL AMPLIFIERS, MONOLITHIC SILICON
- DLA SMD-5962-90500 REV B-2002 MICROCIRCUIT, HYBRID, LINEAR, HIGH SPEED, FET INPUT, OPERATIONAL AMPLIFIER
- DLA SMD-5962-01503 REV C-2013 MICROCIRCUIT, HYBRID, CUSTOM, FIELD EFFECT TRANSISTORS, 600 VOLT OR 500 VOLT, WITH GATE PROTECTION
- DLA SMD-5962-89622 REV A-1994 MICROCIRCUIT, LINEAR, HIGH-SPEED, JFET, OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
- DLA SMD-5962-91574 REV C-2005 MICROCIRCUIT, HYBRID, LINEAR, DIFFERENTIAL OPERATIONAL AMPLIFIER, FET INPUT
- DLA SMD-5962-98636 REV C-2003 MICROCIRCUIT, LINEAR, RADIATION HARDENED JFET-INPUT OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
- DLA SMD-5962-00521 REV E-2008 MICROCIRCUIT, DIGITAL-LINEAR, RADIATION HARDENED, COMPLEMENTARY SWITCH FET DRIVER, MONOLITHIC SILICON
- DLA SMD-5962-00521 REV D-2003 MICROCIRCUIT, DIGITAL-LINEAR, RADIATION HARDENED, COMPLEMENTARY SWITCH FET DRIVER, MONOLITHIC SILICON
- DLA SMD-5962-88503 REV J-2003 MICROCIRCUIT, LINEAR, DUAL MOSFET DRIVERS, MONOLITHIC SILICON
- DLA SMD-5962-89976 REV B-2006 MICROCIRCUIT, LINEAR, HIGH SPEED, PRECISION, JFET, OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
- DLA SMD-5962-90633 REV A-2006 MICROCIRCUIT, LINEAR, QUAD BIFET, OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
- DLA SMD-5962-90817 REV C-2007 MICROCIRCUIT, LINEAR, OPERATIONAL AMPLIFIER, DUAL, JFET, HIGH SPEED, MONOLITHIC SILICON
- DLA SMD-5962-90902 REV A-2002 MICROCIRCUIT, HYBRID, LINEAR, FET INPUT, CLOSED LOOP BUFFER AMPLIFIER
- DLA SMD-5962-97633 REV B-2006 MICROCIRCUIT, LINEAR, DUAL, LOW POWER, JFET INPUT OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
- DLA SMD-5962-89669 REV A-2001 MICROCIRCUIT, LINEAR, QUAD, SPST JFET, ANALOG SWITCH, MONOLITHIC SILICON
- DLA SMD-5962-87660 REV A-2001 MICROCIRCUITS, LINEAR, MOSFET DRIVER, DUAL POWER
- DLA SMD-5962-87706 REV A-2000 MICROCIRCUIT, LINEAR, PRECISION JFET-INPUT, OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
- DLA SMD-5962-91519 REV C-2007 MICROCIRCUIT, LINEAR, DUAL PRECISION JFET, HIGH SPEED OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
- DLA SMD-5962-87716 REV A-2000 MICROCIRCUIT, LINEAR, 8-CHANNEL, JFET ANALOG MULTIPLEXER, MONOLITHIC SILICON
- DLA SMD-5962-87717 REV B-2002 MICROCIRCUIT, LINEAR, 16-CHANNEL JFET ANALOG MULTIPLEXER, MONOLITHIC SILICON
- DLA SMD-5962-89897 REV B-2002 MICROCIRCUIT, LINEAR, QUAD, PRECISION, HIGH SPEED, JFET OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
- DLA SMD-5962-88770 REV H-2003 MICROCIRCUIT, LINEAR, SINGLE POWER MOSFET DRIVER, MONOLITHIC SILICON
- DLA SMD-5962-87718 REV A-2000 MICROCIRCUIT, LINEAR, 4-CHANNEL DIFFERENTIAL JFET ANALOG MULTIPLEXER, MONOLITHIC SILICON
- DLA SMD-5962-03247 REV B-2005 MICROCIRCUIT, HYBRID, LINEAR, POWER MOSFET, DUAL CHANNEL, OPTOCOUPLER
- DLA SMD-5962-96897 REV C-2005 MICROCIRCUIT, LINEAR, OPERATIONAL AMPLIFIER, SINGLE, HIGH VOLTAGE, MOSFET, MONOLITHIC SILICON
- DLA SMD-5962-90861 REV A-1996 MICROCIRCUIT, LINEAR, J-FET LOW POWER, SINGLE/DUAL/QUAD OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
- DLA SMD-5962-90958 REV B-2003 MICROCIRCUIT, LINEAR, JFET-INPUT, HIGH OUTPUT-DRIVE, LOW POWER, OPERATIONAL AMPLIFIER, MONOLITHIC SILICON
Professional Standard - Electron, microcavity effect
- SJ 2748-1987 Blank detail specification for single-gate low noise microwave FETs
- SJ 50033/42-1994 Semiconductor discrete device.Detail specification for type CSO467 GaAs microwave FET
- SJ 50033/78-1995 Semiconductor discrete devices.Detail specification for type CS0464 GaAs microwave FET
- SJ 50033/79-1995 Semiconductor discrete devices.Detail specification for type CS0536 GaAs microwave power FET
- SJ 50033/120-1997 Semiconductor discrete devices Detail specification for type CS205 GaAs microwave power field effect transistor
- SJ 50033.51-1994 Semiconductor discrete devices.Detail specification for type CS0558 GaAs microwave dual gate FET
- SJ 50033.52-1994 semiconductor discrete device.Detail specification for type CS0529 GaAs microwave Power field effect transistor
- SJ 50033.54-1994 Semiconductor discrete device.Detail specification for type CS0532 GaAs microwave power field effect transistor
- SJ 50033/119-1997 Semiconductor discrete devices Detail specification for type CS204 GaAs microwave power field effect transistor
- SJ 50033/81-1995 Semiconductor discrete devices.Detail specification for type CS0524 GaAs microwave power FET
- SJ 50033/80-1995 Semiconductor discrete devices.Detail specification for type CS0513 GaAs microwave power FET
- SJ 50033.53-1994 Semiconductor discrete device.Detail specification for type CS0530 and CS0531 GaAs microwave Power field effect transistor
- SJ 50033/106-1996 semiconductor discrete device.Detail specification for type CS203 GaAs microwave Low noise field effect transistor
American Society for Testing and Materials (ASTM), microcavity effect
- ASTM D8059-19(2022) Standard Test Method for Rubber Compounds—Measurement of Unvulcanized Dynamic Strain Softening (Payne Effect) Using Sealed Cavity Rotorless Shear Rheometers
- ASTM D8059-16 Standard Test Method for Rubber Compounds&x2014;Measurement of Unvulcanized Dynamic Strain Softening (Payne Effect) Using Sealed Cavity Rotorless Shear Rheometers
- ASTM D8059-19 Standard Test Method for Rubber Compounds—Measurement of Unvulcanized Dynamic Strain Softening (Payne Effect) Using Sealed Cavity Rotorless Shear Rheometers
General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, microcavity effect
- GB/T 28044-2011 General guide of detection method for nanomaterial biological effect by transmission electron microscope (TEM)
- GB/T 28873-2012 General guide of environmental scanning electron microscopy for biological effectes on topography induced by nanoparticles
- GB/T 21039.1-2007 Semiconductor devices Discrete devices Part 4-1: Microwave diodes and transistors-Microwave field effect transistors Blank detail specification
Association Francaise de Normalisation, microcavity effect
- NF EN ISO 29200:2020 Qualité du sol - Évaluation des effets génotoxiques sur les végétaux supérieurs - Essai des micronoyaux sur Vicia faba
- NF X31-327:2013 Soil quality - Assessment of genotoxic effects on higher plants - Vicia faba micronucleus test
European Committee for Standardization (CEN), microcavity effect
- EN ISO 29200:2020 Soil quality - Assessment of genotoxic effects on higher plants - Vicia faba micronucleus test (ISO 29200:2013)
International Organization for Standardization (ISO), microcavity effect
- ISO 29200:2013 Soil quality.Assessment of genotoxic effects on higher plants.Vicia faba micronucleus test
ESDU - Engineering Sciences Data Unit, microcavity effect
- ESDU 09002-2019 Aerodynamics and aero-acoustics of rectangular planform cavities Part IIID: Alleviation of Unsteady Flow Effects – Store deployment
- ESDU 08012-2009 Aerodynamics and aero-acoustics of rectangular planform cavities. Part IIIB: Alleviation of unsteady flow effects - acoustic suppression using passive devices
- ESDU 09001-2019 Aerodynamics and aero-acoustics of rectangular planform cavities Part IIIC: Alleviation of Unsteady Flow Effects – Acoustic suppression using active devices
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, microcavity effect
- GB/T 34168-2017 Test method of gold and silver nanoparticle materials biological effect by transmission electron microscope
- GB/T 33839-2017 Methods of transmission electron microscope for biological specimen containing carbon nanomaterials involving biological effect
German Institute for Standardization, microcavity effect
- DIN ISO 29200:2014 Soil quality - Assessment of genotoxic effects on higher plants - Vicia faba micronucleus test (ISO 29200:2013)
PL-PKN, microcavity effect
- PN-EN ISO 29200-2020-11 E Soil quality -- Assessment of genotoxic effects on higher plants--Vicia faba micronucleus test (ISO 29200:2013)
Association of German Mechanical Engineers, microcavity effect
CZ-CSN, microcavity effect
- CSN 67 3095 Cast.5-1988 Paints. Resistance from external influences. Microbial resistance of applied disperse materials. Testing by moulds Ld
- CSN 67 3095 Cast.4-1988 Paints. Resistance from external influences. Microbial resistance of applied disperse materials. Testing by bacteria Lc
International Electrotechnical Commission (IEC), microcavity effect
- IEC 60747-4-1:2000 Semiconductor devices - Discrete devices - Part 4-1: Microwave diodes and transistors; Microwave field effect transistors; Blank detail specification
Korean Agency for Technology and Standards (KATS), microcavity effect
- KS C IEC 60747-4-1-2002(2017) Semiconductor devices-Discrete devices-Part 4-1:Microwave diodes and transistors-Microwave field effect transistors-Blank detail specification
IECQ - IEC: Quality Assessment System for Electronic Components, microcavity effect
- QC 750115-2000 Semiconductor Devices - Discrete Devices - Part 4-1: Microwave Diodes and Transistors - Microwave Field Effect Transistors - Blank Detail Specification (IEC 60747-4-1:2000)
WRC - Welding Research Council, microcavity effect
- BULLETIN 322-1987 STRAIN AGING BEHAVIOR OF MICROALLOYED STEELS ; THE FRACTURE TOUGHNESS BEHAVIOR OF ASTM A737 GRADE B AND GRADE C MICROALLOYED PRESSURE VESSEL STEELS ; THE FRACTURE BEHAVIOR OF ASTM A737 GRADE B AND GRA
The American Road & Transportation Builders Association, microcavity effect
- AASHTO TP 110-2014 Standard Method of Test for Potential Alkali Reactivity of Aggregates and Effectiveness of ASR Mitigation Measures (Miniature Concrete Prism Test, MCPT)
AASHTO - American Association of State Highway and Transportation Officials, microcavity effect
- TP 110-2014 Standard Method of Test for Potential Alkali Reactivity of Aggregates and Effectiveness of ASR Mitigation Measures (Miniature Concrete Prism Test@ MCPT)
- T 380-2018 Standard Method of Test for Potential Alkali Reactivity of Aggregates and Effectiveness of ASR Mitigation Measures (Miniature Concrete Prism Test@ MCPT)