Search Results for semiconductor pellicle material
SENSORS FOR SEMICONDUCTOR MANUFACTURING - PCB
Our sensors are used in a variety of applications for lithograpy and semiconductor manufacturing, from wafer processing to packaging and assembly to final inspection, and more. Measure the smallest vibrations without false trips and alarms where precision matters most.
Model J352C33 | PCB Piezotronics
Model J352C33:High sensitivity, ceramic shear ICP® accel., 100 mV/g, 0.5 Hz to 9k Hz, 10-32 side conn., ground isolated
PVDF - MSI Transducers
Piezoflex™ Polymer material is manufactured by a patented process using homopolymer PVDF (polyvinylidene flouride). We offer electroplated copper custom conformal shapes and transducer assemblies. For more information and specifications: MSI specializes in custom designed transducers to fit any application.
Model 352C33 | PCB Piezotronics
Model 352C33:Platinum Stock Products; High sensitivity, ceramic shear ICP® accel., 100 mV/g, 0.5 Hz to 10k Hz, 10-32 side conn.
Sensing Technologies used for Accelerometers | PCB Piezotronics
PCB Piezotronics utilizes a number of transduction techniques when designing accelerometers including piezoelectric, piezoresistive, and capacitive. The Piezoelectric Effect is an inherent, or induced property of certain crystals.
High Sensitivity Accelerometers to Monitor Traffic and Railroad ...
In this paper, we will focus on a particular type of accelerometer and pressure sensor with high sensitivity, used for precisely measuring very small levels of vibration or pressure. These sensors find various applications in vibration control of machinery used for semiconductors and microchip production, as well as in many civil applications.
NovaSensor Medium and High Pressure MEMS Pressure Sensor Die
Available as gage (differential) or absolute, the P883 sensor die also features high sensitivity, excellent overload capability and small temperature hysteresis over a wide temperature range. The product is 100% visually inspected and electrically probed.
Model J353B33 | PCB Piezotronics
High sensitivity, quartz shear ICP® accel., 100 mV/g, 1 to 4k Hz, 10-32 side conn. ground isolated. [1] Zero-based, least-squares, straight line method. [2] Typical. [3] Transverse sensitivity is typically ≤ 3%. [4] B and Q options supplied with a sensitivity tolerance of ± 10 %. [5] See PCB Declaration of Conformance PS023 for details.
Sensors for Semiconductor Manufacturing | PCB Piezotronics
Find, compare, and shop sensors and accessories online. Contact an application engineer to discuss your testing needs, or request a quote today. From precision sensors to advanced instrumentation, optimize your semiconductor manufacturing processes with industry-leading sensor technology.
Model 357B14 | PCB Piezotronics
Model 357B14:High temp., miniature (2 gm), ceramic shear, charge output accel., 3 pC/g, 12k Hz, 10-32 top conn. (-95 F to +500 F)
Model 601A01 | PCB Piezotronics
Platinum Stock Products; Low-noise, industrial, ceramic shear ICP® accel, 100 mV/g, 0.27 to 8k Hz, top exit, 2-pin conn., single point ISO 17025 accredited calibration. [1] Conversion Factor 1g = 9.81 m/s². [2] Zero-based, least-squares, straight line method. [3] The high frequency tolerance is accurate within ±10% of the specified frequency.
Model TLD352A57 | PCB Piezotronics
Model TLD352A57:Miniature (1.33 gm), ceramic shear ICP® accel., 2.5 mV/g, with TEDS version 1.0 and 5-44 coaxial conn
Model 603C02 | PCB Piezotronics
General purpose, industrial, ceramic shear ICP® accel., 500 mV/g, top exit, 2-pin conn., single point ISO 17025 accredited calibration. [1] Conversion Factor 1g = 9.81 m/s². [2] Zero-based, least-squares, straight line method. [3] The high frequency tolerance is accurate within ±10% of the specified frequency. [4] Typical.
Model 356M41 | PCB Piezotronics
Model 356M41:Low outgassing triaxial, miniature (4 gm), ceramic shear ICP® accel., 10 mV/g, 1 to 10k Hz (+/- 5%), 0.5 Hz 1 dB, 5 ft attached cable
Model M351B11 | PCB Piezotronics
Cryogenic, miniature quartz shear ICP® accel., 5 mV/g, 1 to 10k Hz, 5-44 side conn., M3 mtg stud, operating temp -320 to +250 F (-196 to +121 C) [1] Zero-based, least-squares, straight line method. [2] Typical. [3] Transverse sensitivity is typically ≤ 3%. [4] See PCB Declaration of Conformance PS023 for details.
Model 353B31 | PCB Piezotronics
Model 353B31:High sensitivity, quartz shear ICP® accel., 50 mV/g, 1 to 5k Hz, 10-32 side conn.
Model 602M138 | PCB Piezotronics
Low profile, industrial, ceramic shear ICP® accel., 100 mV/g, 0.5 to 8000 Hz, side exit, 2-pin connector, single point ISO 17025 accredited calibration, for use with Echo® system. [1] Conversion Factor 1g = 9.81 m/s². [2] Zero-based, least-squares, straight line method.
Model JTLD352C04 | PCB Piezotronics
General purpose, ceramic shear ICP® accel., 10 mV/g, 0.5 to 9k Hz, 10-32 top conn. ground isolated, TEDS. [1] Zero-based, least-squares, straight line method. [2] Typical. [3] 250° F to 325° F data valid with HT option only. [4] See PCB Declaration of Conformance PS023 for details.
Model EXVOM622B01 | PCB Piezotronics
Intrinsically-safe, industrial, ceramic shear ICP® accel, 100 mV/ips, 3 to 9k Hz, top exit, 2-pin conn., frequency sweep ISO 17025 accredited calibration. [3] Zero-based, least-squares, straight line method. [4] The high frequency tolerance is accurate within ±10% of the specified frequency.
Model 357B61 | PCB Piezotronics
High temp., ceramic compression, charge output accel., 10 pC/g, 5kHz, 10-32 side conn. (-65F to +900F), supplied with 10-ft hardline cable. [1] Zero-based, least-squares, straight line method. [2] Low frequency response is determined by external signal conditioning electronics. [3] Typical. [4] See PCB Declaration of Conformance PS081 for details.