Silicon Strain Gauges

Description: The TM strain silicon gauge pressure transducer has an all stainless steel 316L construction making it suitable for a wide range of media types. The silicon chip has implanted semiconductor strain gauges which offer a high mV/V sensitivity which improves

• Device Category: Sensor
• Pressure Reading: Absolute

Description: • Silicon on Sapphire Construction • Titanium Wetted Parts for Media Compatibility • 0.25% Accuracy • 100 mV Bridge Output is Compatible with Most Strain Gage Instrumentation • High Operating Temperature • IP65 Enclosure

• Accuracy: 0.2500 ±% FS
• Display: Digital
• Media: Liquid, Gas, Hazardous
• Operating Temperature: -40 to 175 F

Description: • Silicon on Sapphire Construction • Titanium Wetted Parts for Media Compatibility • 0.25% Accuracy • 4-20 mA Output is Compatible with Most PLC’s and Control Systems • High Operating Temperature • IP65 Enclosure

• Accuracy: 0.2500 ±% FS
• Display: Digital
• Media: Liquid, Gas
• Operating Temperature: -40 to 175 F

Description: • Silicon-on-Sapphire Sensor Assures High Stability and Repeatability • High Accuracy 0.2% • IP65/NEMA 4 Stainless Steel Body • Solid State Reliability • High Shock and Vibration • Low Drift

• Accuracy: 0.2000 ±% FS
• Electrical Output: Analog Current
• Media: Liquid, Gas, Hazardous
• Pressure Reading: Gauge

Description: • Silicon on Sapphire Construction • Titanium Wetted Parts for Media Compatibility • 0.25% Accuracy • 5 V Output is Compatible with Most PLC’s and Control Systems • High Operating Temperature • IP65 Enclosure

• Accuracy: 0.2500 ±% FS
• Device Category: Transducer
• Electrical Output: Analog Voltage
• Media: Liquid, Gas, Hazardous

Description: Standard "U" Shape Semiconductor Strain Gages Micron semiconductor Strain Gages are made from "P" doped bulk silicon. This is a two terminal resistive device. The silicon is micro machined to shape thus eliminating molecular dislocation or cracks, thereby optimizing

• Construction: Semiconductor (Piezoresistive)
• Gage Factor: 175
• Nominal Resistance: 540, 1000, Other
• Operating Temperature: 500 F

Description: Standard "M" Semiconductor Strain Gages Micron semiconductor Strain Gages are made from "P" doped bulk silicon. This is a two terminal resistive device. The silicon is micro machined to shape thus eliminating molecular dislocation or cracks, thereby optimizing

• Construction: Semiconductor (Piezoresistive)
• Gage Factor: 140
• Nominal Resistance: Other
• Operating Temperature: 500 F

Description: Standard BAR Gage Semiconductor Strain Gages Micron semiconductor Strain Gages are made from "P" doped bulk silicon. This is a two terminal resistive device. The silicon is micro machined to shape thus eliminating molecular dislocation or cracks, thereby optimizing

• Construction: Semiconductor (Piezoresistive)
• Nominal Resistance: 120, 540, Other
• Operating Temperature: 500 F
• Termination Options: Lead Wires

Description: -to-Noise Ratio: Silicon strain gages provide a signal 75 times stronger than conventional foil gages. This signal is amplified, resulting in near-zero noise distortion. Industrial Strain Relief Version Available: E-exit strain relieved version of this transducer is

• Category of Device: Sensor / Transducer
• Maximum Torque: 177 In-lbs
• Technology: Strain Gauge

Description: strain relieved cable. E-exit strain relief offers resistance to a 10 lb cable pull force. Extremely-High Strength: EDM wire-cut from high yield-strength stainless steel. Maximum allowable overload values are 5.9 to 24.9 times rated capacities. High Signal-to-Noise Ratio:

• Category of Device: Sensor / Transducer
• Maximum Torque: 708 In-lbs
• Technology: Strain Gauge

Description: through-hole to allow passage of linkages or cables. Extremely-High Strength: EDM wire-cut from high yield-strength stainless steel. Maximum allowable overload values are 5.7 to 25.3 times rated capacities. High Signal-to-Noise Ratio: Silicon strain gages provide a signal 75 times

• Category of Device: Sensor / Transducer
• Maximum Torque: 177 In-lbs
• Technology: Strain Gauge

Description: . Maximum allowable overload values are 4.8 to 19.9 times rated capacities. High Signal-to-Noise Ratio: Silicon strain gages provide a signal 75 times stronger than conventional foil gages. This signal is amplified, resulting in near-zero noise distortion. IP65 and IP68 (10m) Versions

• Category of Device: Sensor / Transducer
• Maximum Torque: 12389 In-lbs
• Technology: Strain Gauge

Description: QLA307 Custom Low Profile Load Washer, 4000 lb, 0.185" H, w/ Mounting Holes, 5 ft Silicon Cable, Exit out of side

• Accuracy: -3 to 3 ±% Full Scale
• Force / Load Rating: 4000 lbs
• Operating Temperature: -40 to 200 F
• Sensor Output: Analog Voltage

Description: QLA341 , 1000 lb , Custom Donut Load Cell , 1.8" ID , Vibration Environment , Silicon Cable , 5 ft Long

• Accuracy: -0.5000 to 0.5000 ±% Full Scale
• Force / Load Rating: 1000 lbs
• Load Cell Package: Donut / Washer
• Operating Temperature: -60 to 185 F

Description: liquids, differential pressure monitoring, e.g. of filters and pumps as well as flow measurement (volume or mass flow). Silicon differential pressure sensor Measuring range 10mbar / 30mbar Uncompensated bridge output signal (mV/V) High accuracy

• Device Category: Sensor
• Electrical Output: Analog Voltage
• Operating Temperature: -40 to 185 F
• Pressure Reading: Differential

Description: , volume, or mass measurements in liquids or gases, differential pressure monitoring, e.g. filters and pumps, and flow measurement (volume or mass flow). BENEFITS The features of the versatile USD50B silicon differential pressure sensor at a glance. Measuring ranges

• Device Category: Sensor
• Electrical Output: Analog Voltage
• Operating Temperature: -40 to 185 F
• Pressure Reading: Differential

Description: zone applications. Tension is measured by high-output silicon strain gages housed internally on a dual cantilevered transducer beam and connected in a wheatstone bridge configuration. As the ribbon or filament passes over the rotating transport wheel, the force of the substrate on the

• Application: Web Control
• Category of Device: Sensor / Transducer
• Force / Load Rating: 10 to 400 lbs
• Force Measured: Tension

Description: The CANopen CN422 is a versatile high-performance test and controls sensor with CAN protocol and a quick delivery interval. The electronics and silicon sensor design have a combined accuracy over temperature of better than ±0.08% with an optional improved accuracy of better than ±0.04%

• Electrical Output: DeviceNet, Other
• Features: Temperature Output, Temperature Compensation
• Media: Liquid, Gas
• Operating Temperature: -40 to 185 F

Description: The 3PP8 series sensor uses silicon MEMs strain gage technology. The strain gage is glass bonded to a stainless steel diaphragm. Additional benefits include digital temperature compensation, EEPROM memory and self diagnostic capability. It is ideal for the most demanding

• Device Category: Sensor
• Operating Temperature: -40 to 257 F
• Pressure Reading: Gauge

Description: /wet design utilizes proven silicon technology for reliable data in measuring tank level , monitoring flow rate in heat exchangers or filters, and in a variety of test stand applications. The SP007 is built to perform in the most demanding conditions with welded stainless steel construction

• Accuracy: 0.2500 ±% FS
• Device Category: Transducer
• Electrical Output: Analog Voltage, Analog Current
• Features: Temperature Compensation

Description: The “IMPACT” series of Gefran, are pressure transmitters, without transmission fluid, for using in High temperature environment (350°C). Medium pressure is transferred directly to the sensitive silicon element via a thick diaphragm. Strain is transduced by a micro-worked silicon

• Accuracy: 0.2500 to 0.5000 ±% FS
• Pressure Reading: Gauge
• Sensor Technology: MEMS
• Working Pressure Range: 1500 to 15000 psi

Description: Viatran Model IDP10 differential pressure transmitter uses silicon sensor technology and microprocessor-based electronics to provide exceptional accuracy and reliability. Modular electronics are NEMA 4X housed with corrosion-resistant epoxy coating. Stainless steel is also available for

• Display: Digital
• Electrical Output: Analog Voltage, Analog Current, HART® Protocol
• Features: Temperature Compensation
• Media: Liquid, Gas

Description: The “IMPACT” series of Gefran, are pressure transmitters, without transmission fluid, for using in High temperature environment (350°C). Medium pressure is transferred directly to the sensitive silicon element via a thick diaphragm. Strain is transduced by a micro-worked silicon

• Accuracy: 0.2500 to 0.5000 ±% FS
• Electrical Output: Analog Voltage
• Pressure Reading: Gauge
• Sensor Technology: MEMS

Description: The “IMPACT” series of Gefran, are pressure transmitters, without transmission fluid, for using in High temperature environment (350°C). Medium pressure is transferred directly to the sensitive silicon element via a thick diaphragm. Strain is transduced by a micro-worked silicon

• Accuracy: 0.2500 to 0.5000 ±% FS
• Electrical Output: Analog Voltage
• Pressure Reading: Gauge
• Sensor Technology: Piezoelectric

Description: Utilizing silicon MEMs strain gauge technology (MSG), the PTE7000 is a hermetic high pressure sensor ideal for industrial applications that require reliability in harsh environment and high accuracy.

• Device Category: Sensor
• Electrical Output: Analog Voltage, Analog Current
• Operating Temperature: 14 to 212 F
• Pressure Reading: Gauge

Description: The "IMPACT" series of Gefran are pressure transmitters, without transmission fluid, for using in high temperature environment (350°C). Medium pressure is transferred directly to the sensitive silicon element via a thick diaphragm. Strain is transduced by a micro-machined

• Accuracy: 0.2500 to 0.5000 ±% FS
• Electrical Output: Analog Voltage
• Pressure Reading: Gauge
• Sensor Technology: MEMS

Description: strain. In addition the sensor utilizes a silicon, micromachined, stress concentration enhanced structure to provide a very linear output to measured pressure. These calibrated and temperature compensated sensors give an accurate and stable output over a wide temperature range. Each

• Compensated: Yes
• Input (Supply) Voltage: 5 volts
• Operating Temperature: -25 to 85 C
• Package Type / Mounting: Other

Description: strain. In addition the sensor utilizes a silicon, micromachined, stress concentration enhanced structure to provide a very linear output to measured pressure. These calibrated and temperature compensated sensors give an accurate and stable output over a wide temperature range. Each

• Compensated: Yes
• Input (Supply) Voltage: 5 volts
• Operating Temperature: -25 to 85 C
• Package Type / Mounting: Other

Description: package induced parasitic stress and strain. In addition the sensor utilizes a silicon, micromachined, stress concentration enhanced structure to provide a very linear output to measured pressure. These calibrated and temperature compensated sensors give an accurate and stable output

• Compensated: Yes
• Input (Supply) Voltage: 5 volts
• Operating Temperature: -25 to 85 C
• Package Type / Mounting: Other

Description: strain. In addition the sensor utilizes a silicon, micromachined, stress concentration enhanced structure to provide a very linear output to measured pressure. These calibrated and temperature compensated sensors give an accurate and stable output over a wide temperature range. Each

• Compensated: Yes
• Input (Supply) Voltage: 5 volts
• Operating Temperature: -25 to 85 C
• Package Type / Mounting: Other

Description: full scale Models available with integrated display or full-function programmable display Digital thermal compensation uses multi-point temperature-compensa tion method Proprietary micro-machined silicon strain gauges exhibit very low zero drift Fully swept

• Accuracy: 1 ±% FS
• Device Category: Transducer
• Display: Analog Meter
• Electrical Output: Analog Voltage, Analog Current

Description: The DMP 331i high accuracy pressure transmitter sensor uses a silicon strain gauge diaphragm housed in an oil filled capsule and the repeatable & low hysteresis properties of silicon are exploited by the digital amplifier with 14 bit A/D conversion to provide a highly

• Features: Intrinsically Safe

Description: INW's improved PS9805 submersible pressure transducer is designed to provide level and temperature measurement in most types of liquid environments. The PS9805 features the latest in silicon, micro-machined, piezoresistive, strain gauge technology, and temperature measurement

• Device Category: Sensor
• Pressure Reading: Absolute

Description: Water cooled pressure transducers are used for accurate static and dynamic measurements in fluids up to 350 °C. The sensor, an integrated silicon cell with four diffused strain gauge resistors, is located in the water cooled section of the oil-filled body. The oil transmits the

• Accuracy: 0.1000 ±% FS
• Device Category: Transducer
• Electrical Output: Analog Voltage
• Media: Liquid, Gas

Description: The ATM-T pressure and temperature transmitter combines the measurement of two process parameters in one device saving installation time and space. The sensor measures pressure via an oil filled silicon chip strain gauge capsule. The temperature is measured behind a oil filled