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Compressor-Cooled Incubator
ICP
Our ICP compressor-cooled incubator offers great results whenever a rapid and precise changeover between heating and cooling phases in ramp operation is required. Due to the finely tuned control technology, temperatures exactly reach the setpoint values without the need for energy-intensive bursts of power.
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Laser Tachometer
LaserTach™
The LaserTach™ ICP™ tachometer senses the speed of rotating equipment and outputs an analog voltage signal for referencing vibration signals to shaft speed. The sensor allows for measurements in excess of 30,000 RPM from distances as far as 20 inches (51 cm).
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ICP Electret Array Microphone
130A23
Nominal Microphone Diameter: 1/4" Frequency Response Characteristic (at 0 incidence)Free-FieldInherent Noise (A Weighted)<30 dB(A) re 20 Pa<30 dB(A) re 20 Pa Dynamic Range (High)150Environmental Temperature Range ( Temperature Effect on Output (-10 to +50 C)<0.7 dB<0.7 dB[2] Influence of Axial Vibration Excitation Voltage 18 to 30 VDC18 to 30 VDC
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Digital ICP® - USB Signal Conditioner
The Digital ICP®-USB Signal Conditioner, Model 485B39, offers plug-and-play connectivity for your measurements. Model 485B39 from The Modal Shop, a wholly owned subsidiary of PCB Piezotronics, is a pocket-sized, dual-channel ICP to USB digital signal conditioner. The unit provides any ICP sensor – accelerometers, microphones, impact hammers, laser tachometers, and more – with a digital USB output. It is truly plug-and-play, with no drivers required. Digital ICP features two BNC inputs and a 24-bit USB digital signal output, allowing a direct connection from the sensor to any PC, tablet, or smartphone device for easy data collection, analysis, and sharing on-the-go.
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Reusable ICP® Strain Gauge
This high-resolution dynamic alternative to bond foil strain gauges uses a quartz sensing element in a durable, titanium housing. It has 0.0006 microstrain resolution, 5 volt output, 100k Hz frequency response and 0.5 gram mass for lightweight test articles. The reusable sensor comes with a calibration certificate, attaches to the test specimen in 60 seconds and is removed in 10 seconds.
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Modern Prepolarized Precision Condenser Microphones & Preamplifiers
Modern prepolarized microphones are designed with newer technology than traditional externally polarized microphones. Prepolarized microphones have many advantages over the externally polarized models. They use ICP® power circuitry invented for sensors by PCB®. By applying a polymer coating to the top of the backplate and embedding a charge on it, expensive 200V power supplies can be eliminated and 2-20 mA constant current supplies or signal conditioners can be used as the power source.
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ICP Microphone System
378C01
This model includes a 1/4" microphone cartridge, a mated preamplifier with TEDS, and system calibration. Click the following for individual component information.
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Dual-Mode Charge Amplifiers
Dual-mode charge amplifiers represent a versatile solution for both piezoelectric charge mode and ICP® sensors. Among the advanced features offered by models 443B01, 443B02 and 2775C are an ultra-low noise floor, sensor fault detection, overload detection, a built-in calibration reference signal, and an RS-232 port for seamless computer control. Notably, model 443B02 features a long discharge time constant selection, ideal for capturing quasi-static events lasting several seconds, a capability particularly beneficial for ballistics and ammunition testing applications. Model 2775C features AC, DC, and servo outputs.
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Endevco Cryogenic Charge Output Accelerometers
PCB's acquisition of Endevco's full line of testing sensors means all Endevco sensors are now backed by PCB's Total Customer Satisfaction (TCS) guarantee. Endevco® cryogenic piezoelectric accelerometers are built specifically for measuring vibration under cryogenic conditions down to -452° F (-269° C). Signal outputs of these units are very stable even at extremely low temperatures. Their rugged internal construction is designed to withstand multiple cycles of thermal shock with steep temperature gradient. The accelerometers are self-generating devices that require no external power source for operation and contain no electronics. This allows them to operate below the -320° F (-196° C) limit of ICP accelerometers, down to -452° F (-269° C).
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Structural Test ICP® Accelerometers
Conventional structural test data systems use few to several hundred sensors. Cables bundles can be complex and confusing resulting in setup errors. Sensors with TEDS (Transducer Electronic Data Sheet) allow for an internal sensor digital chip to store sensor information. This information contains descriptive identifiers that when connected to a TEDS compatible signal conditioner or data system, reads the descriptive information and automatically aligns the data system. Human error is minimized, reducing time consuming data verification or re-test. The Series 333 ICP® accelerometers, and their accessories, are designed to address the needs of multi-point modal and structural test measurement applications. This equipment was developed in conjunction with the world renowned University of Cincinnati Structural Dynamics Research Laboratory and proven in real-world testing situations. The PCB 333 Series accelerometers delivers rapid system setup, reduces human documentation errors, maintains calibration data of each sensor, allows for “Plug-and-Play” installation, reduces overall test time lowering project test costs.
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On-line ICP / ICP-MS Sample Preparation System
SDX ʜᴘʟᴅ
The SDXHPLD system combines the proven ASX‑560 autosampler with a novel vortex mixing dilution accessory. The system dilutes in the same way you do by hand: volume-to-volume dilution, using a highly accurate syringe pump. But it also goes an additional step to vortex mix the resulting dilution prior to sample introduction to ICP and ICP-MS.The SDX employs vortex mixing to promote homogenization of a sample to ensure accurate and precise analysis following dilution. The variety of sample matrices submitted for trace element analysis necessitates the need for mixing. This long overdue capability improves data quality by fully homogenizing a dilution mixture rather than performing in-line combination.The SDXHPLD is a straight-forward, fully-integrated solution for automated dilution of aqueous and acid base sample prep for ICP or ICP-MS.
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ICP Electret Surface Microphone
130B40
Low-profile surface pressure microphone and preamp, prepolarized
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Ultrasonic Nebulizer
U5000AT+
Using an ultrasonic nebulizer in conjunction with an optical ICP system is a simple, cost-effective way to increase sensitivity and lower detection limits.
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Data Acquisition Card
TPCE
The Elsys TPCE data acquisition (DAQ) cards are high-precision and high-resolution digitizers with sophisticated features such as advanced trigger mode, continuous data acquisition mode, differential inputs, digital input lines (Markers) and ICP coupling for powering piezo sensors.
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Dual Matrix Autosampler
Oils 7400
Oils testing laboratories are adding more sample types as their industry becomes more complex. The Oils 7400 Homogenizing Autosampler allows two sample matricies to be introduced to an ICP instrument from the same system. Boasting a dual port rinse station fed by two separate peristaltic pumps, it can change between oils and coolants testing on demand. With improved speed, mixing capability and sample drip capture, the Oils 7400 delivers robust analysis without compromise.
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3-Component Quartz Force Rings
260 Series
Three-component quartz force ring sensors are capable of simultaneously measuring dynamic force in three orthogonal directions (X, Y, and Z). They contain three sets of quartz plates that are stacked in a preloaded arrangement. Each set responds to the vector component of an applied force acting along its sensitive axis. 3-component ring force sensors must be statically preloaded for optimum performance. Preloading provides the sensing elements with the compressive loading required to allow the proper transmission of shear forces. Versions are available with ranges up to 10k lb (45k N) in the z-axis (perpendicular to the top surface), and up to 4000 lb (18k N) in the x-and y (shear) axes. Both ICP® and charge output styles are available.
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High Temperature Charge Mode Accelerometers
Charge mode output accelerometers from PCB® use piezo-ceramic sensing elements that output an electrostatic charge signal proportional to the applied acceleration. These sensors can operate at extremely high temperatures because they do not contain the built-in signal conditioning electronics that limit the temperature range of ICP® accelerometers. Charge mode sensors are used in the testing of gas and steam turbines, jet engines, high power motors, exhaust systems and automobile engines where temperatures can range from 500° F (260° C) to 1200° F (649° C).
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High Temperature
PCB® offers specially designed and tested ICP® and charge mode accelerometers for testing in extremely high temperatures.
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Autosampler
ASX‑560
Users call CETAC Autosamplers the best on the market, and it’s easy to see why. Put the most reliable, efficient and solidly built autosampler to work in your lab for sample analyses. We have a model to meet your needs, regardless the size of your lab or your specific technique, whether AA, ICP, ICP-MS, TOC, US-VIS, flash/prep chromatography, protein purification, liquid handling or others.
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Compact Autosampler
ASX‑280
Users call CETAC Autosamplers the best on the market, and it’s easy to see why. Put the most reliable, efficient and solidly built autosampler to work in your lab for sample analyses. We have a model to meet your needs, regardless the size of your lab or your specific technique, whether AA, ICP, ICP-MS, TOC, US-VIS, flash/prep chromatography, protein purification, liquid handling or others.
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ICP® Shock Accelerometers
Piezoelectric ICP® accelerometers afford a very high signal output (+/- 5 volts full scale) and the ease of two-wire electrical connectivity. Their inherent ruggedness enables them to be severely over ranged without damage. The addition of internal mechanical isolation minimizes the high frequency stress that would otherwise be encountered by their ceramic sensing elements. This mechanical isolation, coupled with an internal 2-pole electrical filter, built into the ICP® circuitry, tailors the overall accelerometer response to assure data quality to frequencies as high as 10 kHz. Depending on the specific model, accelerations in excess of 50 kg can be successfully measured. These modern designs, with their internal elastomeric isolation materials are verified through calibration to remain dynamically linear and are enabling piezoelectric accelerometers to operate in increasingly severe acceleration environments.
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Chemical Testing
Accolade Engineering Solutions
To ensure product environmental compliance or to gain better understanding of your materials or processes, chemical testing is often required. AES has state of the art the equipment for chemical analysis. For elemental analysis XRF, SEM/EDS or ICP can be used. For molecular analysis GCMS, HPLC and FTIR may be used. FTIR may also be used for surface analysis of contamination and our microFTIR system is suitable for the smallest samples.
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Ground Isolated ICP® Pressure Sensors For High Frequency
PCB® Series 102B is a ground isolated version of the Series 113B. These sensors have all of the same features and benefits of the 113B Series, plus the added benefit of isolation, which helps prevent ground loop problems. This series can accommodate an optional ablative coating (Prefix: CA) to protect the diaphragm from thermal shock in flash-temperature applications.
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Electronics For Signal Processing
PCB Piezotronics manufactures a wide variety of electronics to power ICP®, PE (Charge Mode), MEMS, strain gage and other types of sensors. All of these products provide conditioning of sensor signals for transmission to data acquisition systems.
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3-Component Quartz Force Rings And Links
Three-component dynamic force sensors are offered in both ICP® and charge output configurations for dynamic and quasi-static 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.
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ICP Blast Pressure Pencil Probe
Model: 137B21B
Quartz, free-field, ICP blast pressure pencil probe, 1000 psi, 1 mV/psi, BNC connector
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Vibration Transducers Calibration System
The system is used for calibration of vibration transducers as well as:*ICP and charge accelerometers;*piezoelectrical and capacitive vibration transducers;*vibration-measuring instruments.
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High Temperature ICP® Accelerometers
PCB® offers specially designed and tested ICP® accelerometers for conducting vibration and shock measurements under demanding environmental conditions of up to 356 °F (180 °C). These sensors combine proven quartz and ceramic shear sensing technology with specialized, built-in microelectronic signal conditioning circuitry to achieve dependable operation in extreme temperatures and through repetitive temperature cycling. Laser-welded, hermetically sealed, lightweight titanium or stainless steel housings offer further protection from the environment. Prior to shipment, each sensor undergoes a battery of tests to ensure survivability for its intended use. Such tests include temperature soak at elevated temperatures, temperature cycling, and exposure to highly accelerated screening procedures with hydraulically actuated shakers.
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Miniature Piezoelectric Accelerometers
Structured with highly sensitive piezoceramic sensing elements, miniature Ceramic Shear ICP® Accelerometers have an excellent signal-to-noise ratio, high measurement resolution, and are ideal for conducting low-level vibration measurements. Due to their inherent higher sensitivity, a ceramic ICP® accelerometer can be assembled with a smaller mass than comparable quartz units, resulting in a sensor that is lighter in weight, has a higher frequency response, and has a lower noise floor. To further reduce the mass of the sensors, all ceramic shear accelerometers are housed in either tough, lightweight, laser-welded, hermetically sealed, titanium or aluminum housings. By minimizing the mass of the sensor, mass loading effects are reduced, which maximizes the accuracy of the data obtained.
