Search Results for maximum vector
AR-86 Transverse Sensitivity - PCB
The vector of maximum sensitivity S in this example is tilted by angle f from the ideal vertical (z axis) direction, and decomposes to three orthogonal parts Sx, Sy and Sz. The z axis component Sz is the value normally reported as the accelerometer sensitivity.
Defense - Industries - Wilcoxon Sensing Technologies
Wilcoxon Sensing Technologies advanced sensing technology products include: Vector sensors measure the acoustic pressure and particle acceleration in three orthogonal axes.
MICROPHONE HANDBOOK - PCB
Particle velocity is a vector quantity where the direction of the vector is parallel to the motion of the transmitted wave. The SI unit for particle velocity is meters per second (m/s). Particle velocity should not be confused with either the velocity of individual molecules or the speed of sound.
SERIES 260 & 261 3-COMPONENT DYNAMIC FORCE - PCB
force measurement applications. Each utilizes an array of precision-aligned, quartz sensing crystals. Measurements along the z-axis are proportional to applied compression, tension and impact forces. Measurements along the x and y axes are proportional to shear forces that are imposed upon preloaded crystals by the test fixture. ICP ®
Amphenol Connector Basics Terminology Guide
Values are generally established for maximum and minimum forces. Contact Resistance - Maximum permitted electrical resistance of pin and socket contacts when assembled in a connector under typical service use.
Statement of Work PWB-IPC-6012 For Printed Wiring Boards ... - Borisch
Minimum and Maximum Array Sizes – The minimum array size shall be 4.00” long x 4.00” wide for all board thicknesses, the maximum array size shall be 10.00” long x 8.00” wide for board thickness that are 0.062” or less and 16.00” long x 12.00” wide for board thicknesses greater than 0.062”.
8-Port Antenna
Amphenol's RET-READY antennas are delivered with the RET Actuator already installed and pre-commissioned with all antenna parameters.
LOCC-Box LUTZE Overload Current Control
maximum supply current is dictated by the 6mm2 terminal, and is DC 40A. The slim width of just 8.1mm results in an installed width of just 340mm even with a 40-channel configuration. The system housing is comple-mented by name plate labels, seals and a jumper system to loop signals. Standard Application
VANNER POWER GROUP IQ SERIES - Charles Industries
IQ stands for Industrial Quasi-sine wave. The IQ Series is a family of dependable inverters (IQ models) and inverter/chargers (IQC models) designed to meet the severe service requirements of the industrial market. All models of the IQ Series produce quasi-sine wave AC output power.
PM111LH Chirp-ready Pocket/Keel Mount - Airmar
The PM111LH is a pocket/keel mounted, 2 kW transducer which delivers excellent target resolution, bottom discrimination, and bait and game-fish separation. The PM111LH is packed with a fifteen-element, low-frequency array that operates anywhere between 38 and 75 kHz, delivering great depth capability down to 1829 m (6000').
APXVAALL24M-U-J20 - Amphenol Antenna Solutions
Array R1 R2 Y1 Y2 Connector 1-2 3-4 5-6 7-8 4 PORTS 4 PORTS Polarization XPOL XPOL Azimuth Beamwidth (avg) 65° 65° Electrical Downtilt 2-12° 2-12° Dimensions 2432 x 499 x 215 mm (95.7 x 19.7 x 8.5 in) APXVAALL24M-U-J20 65° 2432 mm INTEGRATED RET ORDERING OPTIONS Select from the following ordering options ANTENNA MODEL NUMBER CONFIGURATION
IMPACT AND DROP TESTING - PCB
calculate the results. A simple test method of measuring impact force versus displacement, and then integrating for the area under force-displacement curve provides an. utput in energy units. However, what force output could the engineer expect to measure .
6-Port Antenna
Maximum Effective Power Per Port Watts 250 Inter/Intra Band Isolation dB > 25 Standard values based on NGMN-P-BASTA version 9.6 recommendation. ELECTRICAL SPECIFICATIONS Low Band R2 Frequency Range MHz 698-960 MHz 698-806 790-862 824-894 880-960 Polarization --- ±45° Gain Over all Tilts dBi 15.4 ± 0.6 16.0 ± 0.4 16.3 ± 0.5 16.6 ± 0.3
R109LH Chirp-ready Thru-hull External Mount - Airmar
The R109LH is an externally-mounted, 2 kW transducer which delivers excellent target resolution, bottom discrimination, and bait and game-fish separation. The R109LH is packed with a fifteen-element, low-frequency array that operates at anywhere between 38 and 75 kHz, delivering great depth capability down to 1829 m (6000').
R111LH Chirp-ready In-hull - Airmar
Airmar’s R111LH is an in-hull, 2 kW transducer which delivers excellent target detail, bottom discrimination, and bait and game-fish separation. The R111LH is packed with a fifteen-element, low-frequency array that operates anywhere between 38 and 75 kHz, delivering great depth capability down to 1829 m (6000').
Driving Long Cables | PCB Piezotronics
The nomograph below provides a simple, graphical method for obtaining the expected maximum frequency capability of an ICP ® measurement system. The maximum peak signal voltage amplitude, cable capacitance and supplied constant current must be known or presumed.
pxie | Amphenol Global Search | Amphenol
Wall-mounted WLQ-4 features an attractive, discreet design and easy to direct towards maximum signal strength. SMA-connector in the base of the antenna enables the use of low loss coaxial cables and customized installation.
G861 | Amphenol Global Search | Amphenol
Mate and unmate connector assemblies for 50 cycles at maximum rate of 12.7mm per minute.
R509LH Chirp-ready Thru-hull External Mount - Airmar
The R509LH is the go-to transducer for today’s top captains who want maximum depth capability combined with the excellent target resolution of the high-frequency band. This powerhouse transducer delivers extreme target detail, bottom discrimination, and bait and game-fish separation at all depths.
Solving Cooling Interconnects for Next-Gen Data Centers and AI Applications
To improve cooling capacity and reduce long-term capital expenditure, the market is turning to alternative methods to air-cooling. Liquid and immersion cooling can be implemented for all components in the AI and HPC architecture, including XPUs, storage, and networking.