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Terahertz waveguide
Terahertz waveguide, Total:22 items.
In the international standard classification, Terahertz waveguide involves: Medical equipment, Electric filters, Optics and optical measurements, Non-destructive testing, Protection against crime, Electricity. Magnetism. Electrical and magnetic measurements, Telecommunication systems, Electrical engineering in general.
Group Standards of the People's Republic of China, Terahertz waveguide
- T/GDKJ 0003-2022 Guide for the meridian physiotherapy of terahertz and far infrared wave
- T/SATA 059-2023 Data format specification of terahertz spectroscopy database
- T/GDGAA 0005-2022 General method for the determination of food and drugs by terahertz spectroscopy
- T/CSTM 00416-2023 Non-destructive testing — Detection and evaluation method for terahertz time domain spectral
- T/GDGAA 0004-2022 Terahertz quantum fingerprint detection and analysis system for quality control of traditional chinese medicine
- T/CSTM 00433-2023 Nondestructive testing- Bonding interface of mullite fiber composites- Terahertz time-Domain spectroscopy detection method
Defense Logistics Agency, Terahertz waveguide
National Metrological Technical Specifications of the People's Republic of China, Terahertz waveguide
- JJF 1603-2016 Calibration Specification for (0.1~2.5) THz Terahertz Spectrometers
- JJF 1600-2016 Calibration Specification for Terahertz Radiation Power Meters
German Institute for Standardization, Terahertz waveguide
- DIN 50996:2020-05 Non-conductive coatings - Non-destructive measurement of coating thickness - Terahertz measurement method
Professional Standard - Public Safety Standards, Terahertz waveguide
- GA/T 1779-2021 General technical requirements for passive terahertz imaging human body safety inspection equipment
U.S. Military Regulations and Norms, Terahertz waveguide
- ARMY MIL-PRF-55310/32 B-2008 OSCILLATOR, CRYSTAL CONTROLLED, TYPE 1 (CRYSTAL OSCILLATOR (XO)), 1.544 MHz THROUGH 125 MHz, HERMETIC SEAL, SQUARE WAVE, ADVANCED CMOS
- ARMY MIL-PRF-55310/18 F-2009 OSCILLATOR, CRYSTAL CONTROLLED, TYPE 1 (CRYSTAL OSCILLATOR (XO)), 0.01 Hz THROUGH 15.0 MHz, HERMETIC SEAL, SQUARE WAVE, CMOS
- ARMY MIL-PRF-55310/31 A-2010 OSCILLATOR, CRYSTAL CONTROLLED, TYPE 1 (CRYSTAL OSCILLATOR (XO)), 0.75 MHz THROUGH 200 MHz, HERMETIC SEAL, SQUARE WAVE, ADVANCED CMOS
- ARMY MIL-PRF-55310/36 A-2010 OSCILLATOR, CRYSTAL CONTROLLED, TYPE 1 (CRYSTAL OSCILLATOR (XO), 1 MHz THROUGH 100 MHz, HERMETIC SEAL, LOW VOLTAGE 1.8V CMOS
- ARMY MIL-PRF-55310/25 D-2009 OSCILLATOR, CRYSTAL CONTROLLED, TYPE 1 (CRYSTAL OSCILLATOR (XO)), 25 MHz THROUGH 175 MHz, HERMETIC SEAL, SQUARE WAVE, EMITTER COUPLED LOGIC
- ARMY MIL-PRF-55310/8 J-2009 OSCILLATOR, CRYSTAL CONTROLLED, TYPE 1 (CRYSTAL OSCILLATOR (XO)), 50 Hz THROUGH 50 MHz, HERMETIC SEAL, SQUARE WAVE, TTL
American National Standards Institute (ANSI), Terahertz waveguide
- ANSI/IEEE 1560:2005 Standard for Methods of Measurement of Radio Frequency Power Line Interference Filter in the Range of 100 Hz to 10 GHz
British Standards Institution (BSI), Terahertz waveguide
- PD IEC TS 62607-6-10:2021 Nanomanufacturing. Key control characteristics. Graphene-based material. Sheet resistance: Terahertz time-domain spectroscopy
International Electrotechnical Commission (IEC), Terahertz waveguide
- IEC TS 62607-6-10:2021 Nanomanufacturing - Key control characteristics - Part 6-10: Graphene-based material - Sheet resistance: Terahertz time-domain spectroscopy
Indonesia Standards, Terahertz waveguide
- SNI 04-7096-2005 The quality of customer line telephone transmission and transmission characteristics - set for telephone band (300-3400 Hz) digital telephones
RO-ASRO, Terahertz waveguide
- STAS SR CEI 479-2-1995 with frequencies above 100 Hz Chapter 5: Effects of special waveforms of current Chapter 6 Effects of unidirec?ional single impulse currents of short duration