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Install these compact sensors anywhere for accurate point sensing and fast response. All Thermal-Tab modules use a thin-film RTD element. All Thermal-Ribbon models conform to EN60751 Class B tolerance when ordered with a PD platinum element.
- Fast response surface sensing in aerospace, medical and industrial devices
- Rugged lamination construction
- Polyimide, silicone rubber or Mylar™ insulation
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The Ni1000SOT is a nickel thin film resistance temperature detector (RTD) that is suitble for use in contact temperature sensing. The characteristics of the temperature sensor comply with DIN 43760. The Ni1000SOT is manufactured by PVD-depositon on a silicon substrate. The thin film structure is covered by a passivation layer for environmental protection and enhanced stability. The nickel elements are mounted on lead frames and encapsulated in SOT23 packages. This technology allows the production of miniature, low cost, high precision temperature sensors. The Ni1000SOT sensor is qualified for the most demanding automotive applications (including exposure to hot oil) and is suitable for many more applications in harsh environments.
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Application: This kind of temperature sensor adopts the special connecting technic by UST, the protective layers are processed with high temperature and pressure which excellent in resisting oil, water and humidity, and could be supplied for temperature measuring applications in areas including: surface, inner space, etc.
You can use quick drying glue to fix on the surface of measured object. By doing this, we can prevent from damaging the object¡¯s surface, the sensor can reuse also.
Feature: Easy install, high precision, fast response time, moveable while working
Sensitive element: Pt 100, Pt200, Pt 500 or Pt 1000 (single or double)
Tolerance: all conform to the requirements of DIN EN 60751
Temperature range: For low temperature type: -200¡æ--£«200¡æ
For high temperature type: -50¡æ--£«550¡æ
Shell: 1mm *1.3mm *0.25mm (length*width*height)
Other types can be customized
Wires: 2, 3 and 4-wire
-- length: can be customized
-- type: glass fiber (Max. temperature 650¡æ)
PTFE (Max. temperature 300¡æ)
FEP (Max. temperature 250¡æ)
Silica gel (Max. temperature 125¡æ)
PVC (Max. temperature 105¡æ)
Protective grade: all conform to the requirements of IP 54
Option:
-- Screening wire
-- Protective grade¡ªIP 65
-- Higher precision ( Glass A, DIN1/3£¬DIN1/10)
-- Protective tube (According to DGS, DGV)
-- Screwd wire
-- Protective metal tube
-- Connector
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Probe for temperature measurement of surfaces, with clamp hole
ASLEC - Study and manufacture of temperature sensors starting from a sensitive element (generally thermister CTN or CTP - Resistance Pt 100 - Thermocouples) electrically welded or to Laser YAG, at the end of a cable and inserted in a metal tube with a resin of filling.
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Measurement Specialties offers high end temperature sensors through its recent acquisitions of BetaTHERM and YSI Temperature. Both companies specialize in negative temperature co-efficient (NTC) thermistors for precision temperature measurement in environments where there is a high cost of failure.
Thermistor-based temperature sensors exhibit a change in their electrical resistance in response to a change in ambient temperature conditions. They are highly-sensitive and have very reproducible resistance-versus-temperature properties. Thermistors can be further classified as either “Positive Temperature Co-efficient” (PTC thermistors) or “Negative Temperature Co-efficient” (NTC thermistors). Both PTC and NTC thermistors have distinct features and advantages that make them ideal for different end-use sensor applications. Whereas PTC thermistors demonstrate an increase in resistance when subjected to an increase in temperature, NTC thermistors demonstrate a decrease and are commonly used for more accurate temperature sensing. This accuracy makes them unique in their functionality in many applications compared to other temperature sensors/switches such as thermocouples or electromechanical thermostats, which they are steadily replacing.
NTC thermistors are available in a wide variety of configurations and protective coatings to suit almost any application. The particular features and advantages of NTC thermistors compared to other sensor types include:
Large temperature sensitivity and broad range of function
Available in many physical forms and not constrained by material types
Interchangeable devices eliminate need for individual sensor calibrations
Good electrical noise immunity
Easy to interface to electronic instrumentation
Can be customized to optimize thermal response requirements
NTC thermistors are the most versatile and cost-effective temperature sensors in terms of satisfying typical selection criteria and in their inherent advantages over other sensor types.
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The L Series offers a choice of precision thermistors that are designed for close tolerance resistance temperature curve tracking over standard temperature ranges. They can be used for any general temperature measurement, control or compensation application where interchangeability and low cost are major considerations. The L Series is available in two types A & B. The A type can be used in standard probe assemblies. The B Type is specifically designed for PCB assembly.The stop tabs allow the component to be located in the same position on the PCB.
Features
• Uniform construction for automated assembly
• Low cost
• Operating temperature range from -40°C to +125°C
• Available in tolerances of +/-1%, +/-3% & +/-5%
• Beta Value tolerance on all products is +/-1%
• RoHS Compliant
Applications
• Disposable medical products
• Automotive applications
• Home appliances
• Air conditioning systems
• Refrigeration control
• Temperature sensing, control and compensation
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The BetaTHERM Glass Series NTC Thermistors are the perfect choice for applications that require high stability and performance in harsh environmental conditions. The Glass A Series uses a hermetic glass encapsulation to allow improved resistance to humid environments. With an operating temperature range of -55°C to +250°C, these NTC Glass Sensors are suitable for elevated temperatures or applications where rapid thermal cycling are present. With resistance tolerances of +/-1%, +/-2%, +/-3% or +/-5%, these NTC glass thermistors are suitable for the most demanding requirements.
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NTC Thermistor soldered to 30 Tinned Copper wire with Teflon Insulation. The unit is positioned in the PVC Medical (HY-VIN VH787) tubing using UV curing agent. The PVC tubing compiles with the requirements of BS2463.
Features
• The sensor is available with highly flexible cable wires designed for Medical use.
• PVC Tube is hermetically sealed to provide a high level of protection to the thermistor.
• Available with cables and connectors or other requirments per customer specification.
• PVC tube complies with BS2463.
• Tight tolerance available - +/- 0.05oC from 32oC to 44oC.
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The rugged construction of the DO-35 package is ideally suited for applications which cover the temperature range from -40°C to +250°C with leads that are suitable for welding or soldering. The glass package hermetically seals to the metal leads which protects the thermistor element from extreme environmental conditions. The axial leads make this device a perfect choice for PC board mounting and the leads are plated giving a temperature rating to +250°C. The standard devices are specified as +/-1%, +/-3% and +/-5% at 25°C.
Features
• PC board mounting
• Hermetically sealed element. Glass metal package.
• Axial leads
• High temperature devices for applications to +250°C
• Time constant - 8 seconds in air
• Dissipation constant - 2.5mW/°C in air at 25°C
• RoHS Compliant
Applications
• Low cost probe assemblies
• High temperature printer ink sensors
• Consumer Electronics
• High temperature high-speed manufacturing
• Printed circuit board temperature sensing
• Air Conditioning
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Hydrosteel 6000 is the ultimate portable monitoring tool for sour, HF and high temperature corrosion and diffusible hydrogen damage in steel.
The intrinsically safe instrument is totally non-intrusive and with minimal test surface preparation, and no consumables such as grease required, reliable measurements can be made within a minute.
Measurements can be taken from small pipes and large vessels, at any orientation and at any temperature up to 500 °C (932 °F), with a single probe.
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The MICRO III, with its small dimensions of only 4,7 x 8,8 x 2,5 cm, is the ideal gas detector for personal protection. The single gas detector with ATEX certification weighs only 75 g. It detects reliably oxygen, hydrogen or many toxic gases like hydrogen sulphide, ammonia, ozone, carbon monoxide, etc. The current gas concentration is shown on a large display. With a loud alarm of 95 dB and a changing frequency the small single gas detector is audible even in noisy environments. Simultaneously, two bright and alternately flashing LEDs indicate a gas alarm. Three alarm levels and the battery alarm provide comprehensive protection.
With a permanent operation of 24 hours a day a single AA battery powers this instrument for up to 9 months. The long-life smart sensors allow the change to other gases without any problems, since the detector recognizes the new sensor type. A high-performance pump (as per ATEX) for gas sampling can be easily attached, ensuring to detect gas hazards in confined areas.
Gases to be detected: O2, H2S, CO, NO, NH3, HCN, HCl, SO2, H2, C2H4O, SiH4, PH3, COCl2, NO2, Cl2, O3, ClO2.
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Many measurement tasks in the field of industrial test benches and automatic production/assembly processes can be solved very simply and reliably with HBM industrial measurement amplifiers. Force, pressure, displacement and torque transducers based on different technologies can be connected to these analog and digital amplifiers.
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interface technology
The TURCK interface product portfolio comprises a large variety of devices for isolation, conversion, processing and conditioning of analogue signals.
The housing designs comply with industrial standards:
series interface module (IM) in modular housings
series multimodul (MK) in modular housings
series multisafe® (MS) in modular housings
series multicart® (MC) on 19’’ card
Interfacemodule Cartridge (IMC) series for the IP67 area
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SIM-Small Instrumentation Modules-is a compact test and measurement platform for a wide range of applications. Unlike other modular systems, SIM offers complete front-panel as well as remote operation, allowing you to choose between manual and computer control. Up to eight instruments share the same mainframe which provides power, clock synchronization, communications, and module status. For additional versatility, you can cascade mainframes or other RS-232 instruments, and even operate modules outside the mainframe.
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The measuring amplifier with comparator outputs works as a DC amplifier for DMS measuring bridges. Three downstream comparators having one adjusting potentiometer each allow for the setting of three different switching thresholds that correspond to a certain load of connected DMS force transducer. Each comparator output controls one relay and one indicator LED.
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Roga MI-17 ICP® (IEPE) measuring microphone - Description:
These 1/4"- ICP® (IEPE) measuring microphones are pressure transducers. The model MI-17 have integrated electronics, and can be delivered with sensitivities from 10 to 100 mV/Pa at tolerances of within ± 5 %. Special custom versions are also possible. Power supplies for the microphones can be either a constant current source of 2 - 6 mA (standard version) or a constant voltage source 4 - 30 Volts. Normally the microphones are fitted with BNC-connectors (fem.) allowing standard BNC-BNC cables to be used. Other connectors such as TNC, SMB, Lemo or ìdot are also available on request.
These microphones are quite suitable for array applications.
ICP ® is a registered trademark of PCB Group Inc.
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The M2010 and M2015 are compact and accurate measurement microphones for acoustics, R&D and production. They are particularly suited for applications with restricted space available. The microphones M2010 and M2015 are optimised for a flat, free-field response in the audio range 20Hz - 20kHz.
Microphone Characteristics
* 1/2” omni-directional pressure microphone
* Flatness Class 1 (IEC 61672-1)
* Phantom power 10 - 48 VDC
* Measurement range typical
M2010: 24 - 145 dBSPL
M2015: 34 - 155 dBSPL
Detachable Cable
The detachable microphone cable at the pre-amplifier simplifies integration into mechanical fixtures, such as robotic arms.
Packaging
The microphone includes a wind screen, a microphone stand and an individual calibration certificate with individual frequency response chart and sensitivity.
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The MiniSPL is the ideal accessory for the Acoustilyzer AL1 and Minilyzer ML1. Its self-powered design, the individual factory adjustment and the auto power-off control combine to make MiniSPL an accurate, easy to handle yet affordable measurement microphone.
The servo-loop output stage design supports long cable connections between the analyzer and the microphone - up to several hundred meters. MiniSPL is also recommended and easy to use in conjunction with PC based measurement systems with high quality audio cards.
Technical Data MiniSPL
Microphone Type 1/2”, omni-directional, free field transducer
Sensitivity (20 ±2) mV//Pa, (-34 ±1) dBV/Pa @ 1 kHz
balanced output
Freq. Response 100 Hz - 1250 Hz ±1 dB
20 Hz - 20 kHz ±3 dB
in accordance with IEC61672, class 2
Peak Input 130 dBSPL @ 1 kHz
Noise floor 32 dBSPL, A-weighted
Load Conditions 20 - 200 kOhm balanced,
Power Supply 1 x AA battery 1.5 V, battery lifetime typical 300 hrs
Dimensions ø 22 x 180 mm, ø 0.87” x 7”
Weight 100 g ( 3.5 oz ) incl. battery
Temperature 0° to +45° C (32° to 113° F)
Humidity 90 % R.H., non condensing
Conforms to the Normative Standards EMC-Directives: 89/336, 92/31, 93/68
Harmonized Standards: EN 61326-1.
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Piezoelectric film ultrasound transmitters and receivers offer unique advantages for air ranging applications. Resonance frequency and vertical beam directivity of the transmitter and receiver can easily be customized by changing the diameter and length of the PVDF cylinder. Cylindrical PVDF receivers exhibit very wide horizontal or omni-directional beam directivity and broad band characteristics. These characteristics lend unique solutions in many applications such as two-dimensional positioning, digitizer, object detection, and distance measurement. Piezo film ultrasound transducers also have very low resonance "Q" values. This means that the signal rise and decay times are much shorter than conventional ceramic ultrasound transducers, making Piezo film transducers ideal for positioning applications.
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SIKO electronic displays are freely prgrammable via robust, front-sided membrane keyboard ensuring an easy and flexible adaptation for displaying different measured values. Depending on application, compact, simple units or multi-functional displays with RS485 interface are available.
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Display with 5 digits of 60mm height to be mounted on the crane.
The location on the beam of the crane or on wall makes the weight easily readable from the position of the operator.
Comptaible with our weighing systems via cable or radio.
Technical charactersitics
· 5 LED digits of 60 mm of height
· APower supply trough crane, 48, 110 or 220V
· Infrared remote control with fucntion Tare
· Connected via cable or radio
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