\nwww.disensors.com \nwww.disensors.com \nnms_data_acquisition_systems \nnms_data_acquisition_systems \nwww.disensors.com \nnms_digital_panel_meter \nnms_digital_panel_meter \nwww.disensors.com \nnms_load_cells \nnms_load_cells \nwww.disensors.com \nnms_pressure_sensor \nnms_pressure_sensor \nwww.disensors.com \nnms_strain_gauge \nnms_strain_gauge \nwww.disensors.com \nnms_torque_sensor \nnms_torque_sensor \nwww.disensors.com \nnms_vibration_monitoring \nnms_vibration_monitoring \nwww.disensors.com \nnms_tilt_transducer \nnms_tilt_transducer \nwww.disensors.com \nnms_pressure_transmitter \nnms_pressure_transmitter \nwww.disensors.com \nnms_potentiometer \nnms_potentiometer \nwww.disensors.com \nnms_displacement_sensor \nnms_displacement_sensor \nwww.disensors.com \nnms_data_logger \nnms_data_logger \nwww.disensors.com \nnms_accelerometers \nnms_accelerometers \nwww.disensors.com \nnms_LVDT \nnms_LVDT \nwww.disensors.com \nnms_OEM_sensors \nnms_OEM_sensors \nweb_index \nweb_index 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\nvibration_monitoring \nvibration_monitoring \nLVDT \nLVDT \nLVDT \nLVDT \nOEM_sensors \nOEM_sensors \nOEM_sensors \nOEM_sensors \naccelerometers \naccelerometers \naccelerometers \naccelerometers \ndata_logger \ndata_logger \ndata_logger \ndata_logger \ndigital_panel_meter \ndigital_panel_meter \ndigital_panel_meter \ndigital_panel_meter \ndisplacement_sensor \ndisplacement_sensor \ndisplacement_sensor \ndisplacement_sensor \nload_cells \nload_cells \nload_cells \nload_cells \npotentiometer \npotentiometer \npotentiometer \npotentiometer \npressure_sensor \npressure_sensor \npressure_sensor \npressure_sensor \npressure_transmitter \npressure_transmitter \npressure_transmitter \npressure_transmitter \nstrain_gauge \nstrain_gauge \nstrain_gauge \nstrain_gauge \ntilt_transducer \ntilt_transducer \ntilt_transducer \ntilt_transducer \ntorque_sensor \ntorque_sensor \ntorque_sensor \ntorque_sensor \nvibration_monitoring \nvibration_monitoring \nvibration_monitoring \nvibration_monitoring \nLVDT \nLVDT \nLVDT \nLVDT \nOEM_sensors \nOEM_sensors \nOEM_sensors \nOEM_sensors \naccelerometers \naccelerometers \naccelerometers \naccelerometers \ndata_acquisition_systems \ndata_acquisition_systems \ndata_acquisition_systems \ndata_acquisition_systems \ndata_logger \ndata_logger \ndata_logger \ndata_logger \ndigital_panel_meter \ndigital_panel_meter \ndigital_panel_meter \ndigital_panel_meter \ndisplacement_sensor \ndisplacement_sensor \ndisplacement_sensor \ndisplacement_sensor \nload_cells \nload_cells \nload_cells \nload_cells \npotentiometer \npotentiometer \npotentiometer \npotentiometer \npressure_sensor \npressure_sensor \npressure_sensor \npressure_sensor \npressure_transmitter \npressure_transmitter \npressure_transmitter \npressure_transmitter \nstrain_gauge \nstrain_gauge \nstrain_gauge \nstrain_gauge \ntilt_transducer \ntilt_transducer \ntilt_transducer \ntilt_transducer \ntorque_sensor \ntorque_sensor \ntorque_sensor \ntorque_sensor \nvibration_monitoring \nvibration_monitoring \nvibration_monitoring \nvibration_monitoring \nLVDT \nLVDT \nLVDT \nLVDT \nOEM_sensors \nOEM_sensors \nOEM_sensors \nOEM_sensors \naccelerometers \naccelerometers \naccelerometers \naccelerometers \ndata_acquisition_systems \ndata_acquisition_systems \ndata_acquisition_systems \ndata_acquisition_systems \ndata_logger \ndata_logger \ndata_logger \ndata_logger \ndigital_panel_meter \ndigital_panel_meter \ndigital_panel_meter \ndigital_panel_meter \ndisplacement_sensor \ndisplacement_sensor \ndisplacement_sensor \ndisplacement_sensor \nload_cells \nload_cells \nload_cells \nload_cells \npotentiometer \npotentiometer \npotentiometer \npotentiometer \npressure_sensor \npressure_sensor \npressure_sensor \npressure_sensor \npressure_transmitter \npressure_transmitter \npressure_transmitter \npressure_transmitter \nstrain_gauge \nstrain_gauge \nstrain_gauge \nstrain_gauge \ntilt_transducer \ntilt_transducer \ntilt_transducer \ntilt_transducer \nvibration_monitoring \nvibration_monitoring \nvibration_monitoring \nvibration_monitoring \nLVDT \nLVDT \nLVDT \nLVDT \naccelerometers \naccelerometers \naccelerometers \naccelerometers \ndata_acquisition_systems \ndata_acquisition_systems \ndata_acquisition_systems \ndata_acquisition_systems \ndata_logger \ndata_logger \ndata_logger \ndata_logger \ndigital_panel_meter \ndigital_panel_meter \ndigital_panel_meter \ndigital_panel_meter \nload_cells \nload_cells \nload_cells \nload_cells \npotentiometer \npotentiometer \npotentiometer \npotentiometer \npressure_sensor \npressure_sensor \npressure_sensor \npressure_sensor \nstrain_gauge \nstrain_gauge \nstrain_gauge \nstrain_gauge \ntorque_sensor \ntorque_sensor \ntorque_sensor \ntorque_sensor LVDT LVDT installations require a connecting rod between the LVDT core and the object whose motion is being measured. These connecting rods are fabricated from non-magnetic stainless steel to prevent distortion of the LVDT’s magnetic field. Manufactured from AISI 300 Series stainless steel, core connecting rods are threaded end to end. (Consult factory for available lengths and sizes.) The PSD 4-15 DC LVDT power supply is designed to work with all of Schaevitz® DC powered LVDTs. The module will operate on either a 115 VAC or 230 VAC input at 47 to 63 Hz. The PSD 4-15 provides the necessary 15 VDC excitation to operate as many as four DC-EC or HCD Series LVDTs, as well as GCD Series gage heads or DC powered Schaevitz® RVDTs (see rotary section) or pressure transducers (see pressure section) that require a 15 VDC input. The rugged, compact design can be chassis mounted and features a DIN standard rail mount for secure installation in most industrial environments. In addition, the PSD 4-15 is UL, VDE and cUL approved and CE certified. The economical E series of LVDTs satisfies numerous applications where LVDT performance and reliability are desired, but where budgets are limited. Linearity is 0.5% of full-range for all units except long-stroke models. The E series is particularly suitable for moderate operating temperatures. Its rugged construction will resist the shocks and vibrations encountered in most industrial applications. The E series is housed in magnetic stainless steel for protection against electromagnetic and electrostatic interference. Flexibility and increasing cost pressures have been an important topic for years when it comes to vibration monitoring of manufacturing and assembly processes and the automation of test rigs. This situation forces companies involved in plant and equipment construction to use as many rationalisation measures as possible. Development in the field bus sector offers the potential for innovation and cost saving. In order to be able to make use of this potential, signal processing must satisfy new demands. The solution for signal processing is called ”PME” - the intelligent product line for industrial measurement technique. The PME range of products offer different types of modules for recording of all measured quantities relevant to processing, such as force, displacement, pressure, temperature, speed, frequency and torque. HBM Force Transducers measure static and dynamic tensile and pressure loads - and virtually without any displacement. Force Transducers can be supplied in the most varied of designs and classes of accuracy. Typical application areas include test bench technology, e.g. measuring force to check material quality and automation technology, e.g. for vibration monitoring quality features when reshaping or bonding. HBM’s own DKD calibration laboratory mirrors the company’s competence in the area of force measurement. The favourable price/performance ratio extends the possible applications on the manufacture of a tilt transducer. The high accuracy of the DMP40 enables the quality of these products to be improved still further. HBM has 50 years experience of its own tilt transducer production and this has of course been used in the development of the DMP40. In the scientific field and in the production of high precision elements, very small changes at high static loads are frequently measured. Here an example is the production of silicon monocrystals. With up to 16th order filters present in the DMP40, these measurement problems can be solved in a very practicable manner. The four limit switches and the eight remote control contacts enable the amplifier to operate autonomously without manual intervention. The DMP40 Digital Precision Measuring Amplifier is designed for measurement with a tilt transducer operating on the strain-gauge principle. The amplifier provides stable resolution of a 2mV/V transducer signal in 1m digits. With an accuracy class of 0.0005/0.0050 the DMP40 is the most accurate measurement instrument available for strain-gauge measurements and can be rightly called 'the ultimate measurement tool'. This technological breakthrough was only possible using the patented analogue to digital converter (ADC) from HBM: The connected tilt transducer is excited with a 225Hz carrier frequency to give interference immunity, zero point stability and a steady display. Any tilt transducer is connected simultaneously to the bridge excitation voltage. This has the advantage that measurements can take place with the full accuracy immediately after the measuring point is selected. Model SP420 Pressure Sensor is a rugged, two-wire pressure transmitter which operates from supply voltages of 14 to 32 VDC. It utilizes a silicon strain gauge bridge bonded to a flat diaphram to measure pressure-induced deflections. The weld-sealed pressure cavity is 17-4 PH stainless steel, making the unit ideal for use with corrosive fluids under most environmental conditions. The Adtech Model SGT 90 Strain Gauge pressure transmitter provides an accurate and economical way to convert a wide variety of primary element strain gauge transducers to a standard process current or voltage signal output with a maximum of 10 mV P/P output ripple. Excitation power for the bridge is provided by the SGT 90 pressure transmitter as a standard feature and may be precisely controlled by the use of remote sensing at the bridge terminals. A hybrid track potentiometer features a high wiper contact resistance, therefore operational checks should be carried out only in the voltage divider mode. A Hybrid track potentiometer should be used only as a voltage divider, with a minimum wiper circuit impedance of 100 x track resistance or 0.5M (whichever is greater). Operation with wiper circuits of lower impedance will degrade the output smoothness and affect the linearity. For variable resistor applications, only a Penny & Giles wirewound potentiometer should be used. Penny+Giles SLS 220 linear displacement sensors have a 10mm or 20mm stroke range with spring loaded operation, a mounting flange to allow easy installation and are contained within a high strength Nylatron® housing which provides good chemical resistance and low weight. The internal potentiometer assembly is protected to IP66. Suited to OEM and process monitoring applications, this new sensor replaces Penny+Giles HLP 220 model. The search for perfect measuring instruments is over. Durham Instruments is the one source for all your quantitative measuring needs. With over 25 years of experience in the instrumentation field, Durham Instruments offers expert solutions for any measuring problem - complete with a smile. Our instrument specialists are geared with the right tools and knowledge o assess your pressure, acceleration, and displacement sensor needs ...and much more! SLS 095 is an entirely new range of miniature linear position displacement sensor products designed to provide maximum performance benefits within an extremely compact body diameter of 9.5mm. Using the proven benefits of Hybrid Track Technology and including a number of unique design features, the SLS 095 is ideally suited to volume OEM manufacturers, where high performance and reliability with competitive pricing and rapid dispatch has paramount importance. The VRVT 190 Linear Displacement sensor combines the best features associated with LVDT's and potentiometers into one rugged, contactless and highly reliable displacement sensor. From the familiar Internet Explorer screen, access to DataWeb requires only the module’s IP address. Login is password protected to prevent unauthorised access. Real-time data for all channels is available using a single screen with user-defined channel tag names and the current alert and alarm status displayed as a simple green, yellow or red background box per channel. Separate general and triggered data logger is available offering data logger capture rates of up to 10 readings/s. Powerful alarm facilities provide two alert and alarm levels for each analog channel. In addition to viewing alarm status on the real-time screen, email messages are automatically generated when an alert or alarm occurs. Different emails are sent for alarms and alerts, each with user-defined message and recipients, and include a current real-time data logger for each channel. Accelerometers consist of a micro machined silicon mass suspended by mulitple beams from a silicon frame. Piezoresistors located in the beams change their resistance as the motion of the suspended mass changes the strain in the beams. Silicon caps on the top and bottom of the accelerometers are added to provide over-range stops. Th accelerometer design provides for a low profile, high shock resistance, durability and built-in damping over a wide usable bandwidth. LVDT installations require a connecting rod between the LVDT core and the object whose motion is being measured. These connecting rods are fabricated from non-magnetic stainless steel to prevent distortion of the LVDT’s magnetic field. Manufactured from AISI 300 Series stainless steel, core connecting rods are threaded end to end. (Consult factory for available lengths and sizes.) The PSD 4-15 DC LVDT power supply is designed to work with all of Schaevitz® DC powered LVDTs. The module will operate on either a 115 VAC or 230 VAC input at 47 to 63 Hz. The PSD 4-15 provides the necessary 15 VDC excitation to operate as many as four DC-EC or HCD Series LVDTs, as well as GCD Series gage heads or DC powered Schaevitz® RVDTs (see rotary section) or pressure transducers (see pressure section) that require a 15 VDC input. The rugged, compact design can be chassis mounted and features a DIN standard rail mount for secure installation in most industrial environments. In addition, the PSD 4-15 is UL, VDE and cUL approved and CE certified. The economical E series of LVDTs satisfies numerous applications where LVDT performance and reliability are desired, but where budgets are limited. Linearity is 0.5% of full-range for all units except long-stroke models. The E series is particularly suitable for moderate operating temperatures. Its rugged construction will resist the shocks and vibrations encountered in most industrial applications. The E series is housed in magnetic stainless steel for protection against electromagnetic and electrostatic interference. Durham Instruments is proud to be the exclusive Canadian Distributor for Schaevitz Sensors. Schaevitz Sensors designs, manufactures, and markets low to medium volume, rugged industrial OEM sensors, with a wide choice of proven sensors for linear and rotary position, pressure, slope/tilt, dimensional gaging, associated instrumentation and customized systems. Biaxial inclination OEM sensors use 2 pieces of basic cells. The sensor works in the way that an electrolytical fluid is formed out by applying an AC-voltage on the planar electrode structures. By tilting the sensor, the fluid level over the different electrodes and in consequence the conductance of the stray field changes. Using a difference measurement principle, the tilt angle and the tilt direction can be measured. With a special electrode and circuit design the temperature coefficient is almost completely compensated. The Massa Ultrasonic Ranging Module is a precision electronic measurement device which includes an interface electronics module and one or two ultrasonic transducers, depending on the model selected. The Ultrasonic Ranging Module provides the OEM sensors market with a PWMLATCH output pulse, whose duration is proportional to the time required for the sound to travel between the transmit and receive transducers. The LATCH pulse width may be processed through additional circuitry for applications requiring position, level, profile, or thickness measurements. Durham Instruments distributes and integrates high-quality instrumentation and data acquisition products for measuring force, pressure, acceleration, position, strain, slope/tilt, temperature, torque, and parts gauging. Products and services include data acquisition systems; instrumentation for measurement, data logger, control; integrated software systems; load cells; press force monitoring and analysis equipment; programmable controllers, computers, software and data-acquisition devices; quality control; sensors; software development; spring probes; test, measurement, calibration and motion analysis equipment; tightening and press fit; transducers; and ultrasonic sensors. HBM has specialized in measurement technology and data acquisition systems for over 50 years. Our range covers the entire measurement and testing system, from strain gages and sensors, via the measuring instruments, right through to the software for acquiring and analyzing data. HBM's catman® provides you with a flexible and powerful software platform for capturing, displaying, analyzing and documenting your measurement data. The MSL DataWeb 4000 series brings a flexible new approach to remote asset monitoring and data acquisition systems, combining advanced communication methods and accurate measurement into a highly affordable package requiring minimum set up. The MICRO Series is a Digital Panel Meter line with state-of-the-art microprocessor technology and modular plug-in design, the Micro Series has been the choice for thousand of applications world-wide. These models accept many signal inputs including DC Voltage, Current & Process, AC Voltage & Current, RTD and Thermocouple, Strain Gauge, Load Cell, Count, Rate, Frequency and Quadrature. The 5 & 6 digit large, bright LED displays may be scaled to read in engineering units using front panel push-buttons and are available in red or green color. These meters are housed in a sealed front, 1/8 DIN panel mount case. The DIN Series digital panel meter product line are rugged, low cost Digital Panel Meters for the measurement of DC Voltage, Current and Process Signals. All models are housed in a standard 1/8 DIN panel mount case and feature large bright red LED digits. These meters allow easy selection of several ranges and provide adjustable scaling to read directly in engineering units. Models EN35V, EN35P and EN35E are 3 ˝ digit (1,999 count) while models EN45V and EN45P are 4 ˝ digit (19,999 count). Minibeam Strain Gage Load Cells offer exceptional accuracy. Eight models operate in tension or compression in controlled environments.  Their compact size and cantilever beam design adapt them to a wide variety  of installations. Interface has applied its proprietary, advanced materials technology to strain gage and flexure design. The  result is that its load cells are recognized worldwide for the highest accuracy in the industry, yet priced competitively with brands offering lower performance. Minibeam electronic load cells have no moving parts. They cannot wear out or get out of adjustment. Their specifications (below) prove superior performance-a major factor in Minibeams wide acceptance in critical applications such as: force and tensile testing; thrust measurements; OEM scale applications;  conveyor scales, check weighers. counting and white scales. Their exceptional accuracy, small size and  mounting ease find high acceptance in ultra precision electronic scales and laboratory instrumentation. The Interface Minibeam Strain Gage Load Cells are now available with MR coating as a cost effective method of protecting 25 thru 250 Ib load cells from high humidity conditions (up to and including 95% Relative Humidity) and periodic exposure to condensation. These units are not intended for submerged operation. For specifications on lower capacity models with MR (Moisture Resistant), contact Durham Instruments. Durham Instruments is proud to be the exclusive Canadian Distributor for IC Sensors. IC Sensors utilizes state-of-the-art silicon micromachining technology to manufacture OEM components for physical measurement and control, including the pressure sensor line, accelerometers, and custom silicon microstructures, resulting in the broadest line of micromachined pressure sensors and accelerometers in the industry. HBM Pressure sensor line, measurement converters and digital pressure measurement devices are used in various sectors of industry: hydraulic systems, pneumatic and liquid engineering systems, chemical and process engineering, gas and water supply networks, in the construction industry and research laboratories. Absolute, excess and differential Pressure Transducers are available, as well as a wide range of passive and active transducers, even explosion-proof versions for the respective areas of application. The Pressure sensor product range is completed by pressure transmitting seals and the availability of in-house calibration in line with "DKD" (Deutscher Kalibrier Dienst) requirements. Strain measurements in increased temperatures on weldable components, on which - due to their size - strain gage application with hot curing adhesive is not possible. Strain gauge use „on site“ where the cleanliness required for bonding cannot be guaranteed (on construction sites, in production plants etc.). Schaevitz® P1400 Series Strain Gauge Pressure Transducers are sensors that provide highly precise measurement of wet/dry differential pressures over wide temperature ranges. Standard versions of this transducer use a 17-4 pH stainless steel diaphragm to sense pressure. The deflection of the diaphragm is transferred to a double cantilever beam by a force transfer rod. Strain in the beam, and therefore, input pressure is measured by four foil strain gauges. HBM through Durham Instruments supplies a large variety of Strain Gauges. We have included .pdf files for your information on our Strain Gauges for even more information on these Strain Gauges contact Durham Instruments. The Interface Minibeam Strain Gauge Load Cells are now available with MR coating as a cost effective method of protecting 25 thru 250 Ib load cells from high humidity conditions (up to and including 95% Relative Humidity) and periodic exposure to condensation. These units are not intended for submerged operation. For specifications on lower capacity models with MR (Moisture Resistant), contact Durham Instruments. The HBM torque sensor is used in many branches of industry and research: plant supervision and process monitoring, motive power engineering and materials handling technology, test bench technology, quality assurance, as well as research and development. The torque sensor range offered by HBM includes torque measurement shafts and flanges, as well as a non-rotational torque sensor for measuring reactions. Signal transmission is effected with the help of slip rings or contactless. In addition, tested couplings are available together with torque measurement shafts. HBM also offers matching amplifiers and measurement technology software for processing and analysing measurement signals. The product range in this field is completed by in-house calibration to DKD standards.